Tablas perfiles (1)
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Nov 16, 2018
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About This Presentation
productos laminados
Slide Content
Productos utilizados
Con carcter indicativo se describen los produc-
tos laminados que se fabrican usualmente para su
empleo en estructuras de edificacin.
En la columna de suministro de las tablas, las in-
dicaciones P existencia permanente, o C consul-
ta previa, corresponden a las condiciones nor-
males del mercado.
Perfil IPN
Su seccin tiene forma de doble T. Las caras ex-
teriores de las alas son perpendiculares al alma y
las interiores presentan una inclinacin del 14
por 100 respecto a las exteriores, por lo que las
alas tienen espesor decreciente hacia los bordes.
Las uniones entre las caras del alma y las caras
interiores de las alas son redondeadas. Las alas
tienen el borde con arista exterior viva e interior
redondeada.
Las dimensiones y los trminos de seccin de los
perfiles IPN se detallan en la tabla 2.A1.1 y coin-
ciden con los de la norma UNE 36 521.
Perfil IPE
Su seccin tiene forma de doble T. Las caras ex-
teriores e interiores de las alas son paralelas entre
s y perpendiculares al alma, y as las alas tienen
espesor constante. Las uniones entre las caras del
alma y las caras interiores de las alas son redon-
deadas. Las alas tienen el borde con aristas ex-
teriores e interioresvivas. La relacin entre la an-
chura de las alas y la altura del perfil se mantiene
menor que 0,66.
Las dimensiones y los trminos de seccin de los
perfiles IPE se detallan en la tabla 2.A1.2 y coin-
ciden con los de la norma UNE 36 526.
Perfil HE
Su seccin tiene forma de doble T. Las caras ex-
teriores e interiores de las alas son paralelas entre
s y perpendicular al alma, y as las alas tienen es-
pesor constante. Las uniones entre las caras del
alma y las caras interiores de las alas son redon-
deadas. Las alas tienen el borde con aristas exte-
riores e interiores vivas.
Los perfiles HE comprenden las tres series si-
guientes, cuyas dimensiones y trminos de sec-
cin se detallan en la tabla 2.A1.3.
ÑSerie normal: HEB
ÑSerie ligera: HEA
ÑSerie pesada: HEM
Coinciden respectivamente con los de las normas
UNE 36 527, UNE 36 528 y UNE 36 529.
Perfil UPN
Su seccin tiene forma de U. Las caras exteriores de las alas son perpendiculares al alma y las in-
teriores presentan una inclinacin del 8 por 100
respecto a las exteriores, por lo que las alas tie-
nen espesor decreciente hacia los bordes. Las
uniones entre la cara interior del alma y las ca-
ras interiores de las alas son redondeadas. Las
alas tienen el borde con arista exterior viva e in-
terior redondeada.
Las dimensiones y los trminos de seccin de los
perfiles UPN se detallan en la tabla 2.A1.4, que
coincide con la norma UNE 36 522.
Perfil L
Su seccin tiene forma de ngulo recto, con las alas de igual longitud. Las caras de cada ala son paralelas y la unin de las caras interiores est re-
dondeada. Las alas tienen el borde exterior con
Anejo 2.A1.Productos laminados
Con carcter indicativo se describen los produc-
tos laminados que se fabrican usualmente para su
empleo en estructuras de edificacin.
En la columna de suministro de las tablas, las in-
dicaciones P existencia permanente, o C consul-
ta previa, corresponden a las condiciones nor-
males del mercado.
Perfil IPN
Su seccin tiene forma de doble T. Las caras ex-
teriores de las alas son perpendiculares al alma y
las interiores presentan una inclinacin del 14
por 100 respecto a las exteriores, por lo que las
alas tienen espesor decreciente hacia los bordes.
Las uniones entre las caras del alma y las caras
interiores de las alas son redondeadas. Las alas
tienen el borde con arista exterior viva e interior
redondeada.
Las dimensiones y los trminos de seccin de los
perfiles IPN se detallan en la tabla 2.A1.1 y coin-
ciden con los de la norma UNE 36 521.
Perfil IPE
Su seccin tiene forma de doble T. Las caras ex-
teriores e interiores de las alas son paralelas entre
s y perpendiculares al alma, y as las alas tienen
espesor constante. Las uniones entre las caras del
alma y las caras interiores de las alas son redon-
deadas. Las alas tienen el borde con aristas ex-
teriores e interioresvivas. La relacin entre la an-
chura de las alas y la altura del perfil se mantiene
menor que 0,66.
Las dimensiones y los trminos de seccin de los
perfiles IPE se detallan en la tabla 2.A1.2 y coin-
ciden con los de la norma UNE 36 526.
Perfil HE
Su seccin tiene forma de doble T. Las caras ex-
teriores e interiores de las alas son paralelas entre
s y perpendicular al alma, y as las alas tienen es-
pesor constante. Las uniones entre las caras del
alma y las caras interiores de las alas son redon-
deadas. Las alas tienen el borde con aristas exte-
riores e interiores vivas.
Los perfiles HE comprenden las tres series si-
guientes, cuyas dimensiones y trminos de sec-
cin se detallan en la tabla 2.A1.3.
ÑSerie normal: HEB
ÑSerie ligera: HEA
ÑSerie pesada: HEM
Coinciden respectivamente con los de las normas
UNE 36 527, UNE 36 528 y UNE 36 529.
Perfil UPN
Su seccin tiene forma de U. Las caras exteriores de las alas son perpendiculares al alma y las in-
teriores presentan una inclinacin del 8 por 100
respecto a las exteriores, por lo que las alas tie-
nen espesor decreciente hacia los bordes. Las
uniones entre la cara interior del alma y las ca-
ras interiores de las alas son redondeadas. Las
alas tienen el borde con arista exterior viva e in-
terior redondeada.
Las dimensiones y los trminos de seccin de los
perfiles UPN se detallan en la tabla 2.A1.4, que
coincide con la norma UNE 36 522.
Perfil L
Su seccin tiene forma de ngulo recto, con las alas de igual longitud. Las caras de cada ala son paralelas y la unin de las caras interiores est re-
dondeada. Las alas tienen el borde exterior con
Anejo 2.A1.Productos laminados
NBE EA-95.Estructuras de acero en edificaci—n 70
aristas vivas y el interior redondeado. Las dimen-
siones y los trminos de seccin de los perfi-
les L se detallan en la tabla 2.A1.5 y coinciden
con los de la norma UNE 36 531.
Perfil LD
Su seccin tiene forma de ngulo recto, con alas de distinta longitud. Las caras de cada ala son pa-
ralelas y la unin de las caras interiores es re-
dondeada. Las alas tienen el borde exterior con
aristas vivas y el interior redondeado.
Las dimensiones y los trminos de seccin de los
perfiles LD se detallan en latabla 2.A1.6 y coin-
ciden con los de la norma UNE 36 532.
Perfil T
Su seccin tiene forma de T. El extremo del alma es redondeado, as como las uniones de la misma con las caras interiores de las alas y las aristas in-
teriores de stas. Las caras interiores de las alas es-
tn inclinadas un 2 por 100 respecto a las exterio-
res y las del alma un 2 por 100 respecto a su eje.
Las dimensiones y los trminos de seccin de los
perfiles T se detallan en latabla 2.A1.7 y coinci-
den con los de la norma UNE 36 533.
Redondo
Su seccin es circular, de dimetro comprendido entre 6 mm y 50 mm. Las dimensiones y los trminos de seccin de los redondos se detallan en la tabla 2.A1.8 y coinci-
den con los de la norma UNE 36 541.
Cuadrado
Su seccin es cuadrada, de lado comprendido entre 6 mm y 5 mm.
Las dimensiones y los trminos de seccin de los
cuadrados se detallan en latabla 2.A1.9 y coin-
ciden con los de la norma UNE 36 542.
Rectangular
Producto laminado plano de seccin rectangular de anchura no mayor que500 mm.
Pueden obtenerse por laminacin directa (UNE
36 543) o por corte de chapa, en cuyo caso las
tolerancias aplicables son las indicadas en las
normas UNE 36 553, UNE 36 559 y UNE 36 560
segn el proceso de laminacin.
Las medidas de los rectangulares ms utilizados,
con sus correspondientesreas y pesos, se deta-
llan en la tabla 2.A1.10.
Chapa
Producto laminado plano de anchura mayor que 500 mm. Segn su espesor se clasifica en:
ÑChapa fina:menor que 3 mm.
ÑChapa media:igual o mayor que 3 mm hasta
4,75 mm.
ÑChapa gruesa: mayor que 4,75 mm.
La chapa suele emplearse solamente como mate-
ria prima para la obtencin por corte de elemen-
tos planos.
Los espesores, en mm, de las chapas ms usuales
son los siguientes:
4, 5, 6, 7, 8, 9, 10, 11, 12, 14, 15,
18, 20, 22, 25, 30, 35, 40, 45 y 50
Las tolerancias de las chapas se especifican en las
normas UNE 36 559 y UNE 36 560.
aristas vivas y el interior redondeado. Las dimen-
siones y los trminos de seccin de los perfi-
les L se detallan en la tabla 2.A1.5 y coinciden
con los de la norma UNE 36 531.
Perfil LD
Su seccin tiene forma de ngulo recto, con alas de distinta longitud. Las caras de cada ala son pa-
ralelas y la unin de las caras interiores es re-
dondeada. Las alas tienen el borde exterior con
aristas vivas y el interior redondeado.
Las dimensiones y los trminos de seccin de los
perfiles LD se detallan en latabla 2.A1.6 y coin-
ciden con los de la norma UNE 36 532.
Perfil T
Su seccin tiene forma de T. El extremo del alma es redondeado, as como las uniones de la misma con las caras interiores de las alas y las aristas in-
teriores de stas. Las caras interiores de las alas es-
tn inclinadas un 2 por 100 respecto a las exterio-
res y las del alma un 2 por 100 respecto a su eje.
Las dimensiones y los trminos de seccin de los
perfiles T se detallan en latabla 2.A1.7 y coinci-
den con los de la norma UNE 36 533.
Redondo
Su seccin es circular, de dimetro comprendido entre 6 mm y 50 mm. Las dimensiones y los trminos de seccin de los redondos se detallan en la tabla 2.A1.8 y coinci-
den con los de la norma UNE 36 541.
Cuadrado
Su seccin es cuadrada, de lado comprendido entre 6 mm y 5 mm.
Las dimensiones y los trminos de seccin de los
cuadrados se detallan en latabla 2.A1.9 y coin-
ciden con los de la norma UNE 36 542.
Rectangular
Producto laminado plano de seccin rectangular de anchura no mayor que500 mm.
Pueden obtenerse por laminacin directa (UNE
36 543) o por corte de chapa, en cuyo caso las
tolerancias aplicables son las indicadas en las
normas UNE 36 553, UNE 36 559 y UNE 36 560
segn el proceso de laminacin.
Las medidas de los rectangulares ms utilizados,
con sus correspondientesreas y pesos, se deta-
llan en la tabla 2.A1.10.
Chapa
Producto laminado plano de anchura mayor que 500 mm. Segn su espesor se clasifica en:
ÑChapa fina:menor que 3 mm.
ÑChapa media:igual o mayor que 3 mm hasta
4,75 mm.
ÑChapa gruesa: mayor que 4,75 mm.
La chapa suele emplearse solamente como mate-
ria prima para la obtencin por corte de elemen-
tos planos.
Los espesores, en mm, de las chapas ms usuales
son los siguientes:
4, 5, 6, 7, 8, 9, 10, 11, 12, 14, 15,
18, 20, 22, 25, 30, 35, 40, 45 y 50
Las tolerancias de las chapas se especifican en las
normas UNE 36 559 y UNE 36 560.
71 Anejos de la Parte 2
Tabla 2.A1.1.Perfiles IPN
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h be=re
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w a e
2
p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
IPN80 80423,95,92,359304 7,58 11,4 77,8 19,53,20 6,29 3,000,91 0,93 87,522Ñ4,43 5,95C
IPN100 100 504,56,82,77537010,60 19,9 171,0 34,24,01 12,20 4,881,07 1,72 268,028Ñ5,05 8,32P
IPN120 120 585,17,73,19243914,20 31,8 328,0 54,74,81 21,50 7,411,23 2,92 685,032Ñ5,6711,20P
IPN140 140 665,78,63,410950218,30 47,7 573,0 81,95,61 35,2010,701,40 4,66 1.540,034116,2914,40P
IPN160 160 746,39,53,812557522,80 68,0 935,0117,06,40 54,7014,801,55 7,08 3.138,040116,9117,90P
IPN180 180 826,910,44,114264027,90 93,4 1.450,0161,07,20 81,3019,801,7110,30 5.924,044137,5321,90P
IPN200 200 907,511,34,515970933,50 125,0 2.140,0214,08,00 117,0026,001,8714,60 10.520,048138,1526,30P
IPN220 220 988,112,24,917577539,60 162,0 3.060,0278,08,80 162,0033,102,0220,10 17.760,052138,7731,10P
IPN240 2401068,713,15,219284446,10 206,0 4.250,0354,09,59 221,0041,702,2027,00 28.730,056179,3936,20P
IPN260 2601139,414,15,620890653,40 257,0 5.740,0442,010,40 288,0051,002,3236,10 44.070,0601710,1541,90P
IPN280 28011910,115,26,122596661,10 316,0 7.590,0542,011,10 364,0061,202,4547,80 64.580,0621711,0448,00P
IPN300 30012510,816,26,52411.03069,10 381,0 9.800,0653,011,90 451,0072,202,5661,20 91.850,0642111,8354,20P
IPN320 32013111,517,36,92571.09077,80 457,012.510,0782,012,70 555,0084,702,6778,20 128.800,0702112,7261,10P
IPN340 34013712,218,37,32741.15086,80 540,015.700,0923,013,50 674,0098,402,8097,50 176.300,0742113,5168,10P
IPN360 36014313,019,57,82901.21097,10 638,019.610,01.090,014,20 818,00114,002,90123,00 240.100,0762314,5076,20P
IPN380 38014913,720,58,23061.270107,00 741,024.010,01.260,015,00 975,00131,003,02150,00 318.700,0822315,2984,00P
IPN400 40015514,421,68,63231.330118,00 857,029.210,01.460,015,701.160,00149,003,13183,00 419.600,0862316,1892,60P
IPN450 45017016,224,39,73631.478147,001.200,045.850,02.040,017,701.730,00203,003,43288,00 791.100,0942518,35115,00P
IPN500 50018518,027,010,84041.626180,001.620,068.740,02.750,019,602.480,00268,003,72449,001.403.000,01002820,53141,00P
IPN550 55020019,030,011,94451.787213,002.120,099.180,03.610,021,603.490,00349,004,02618,002.389.000,01102823,00167,00P
IPN600 60021521,632,413,04851.924254,002.730,0139.000,04.630,023,404.670,00434,004,30875,003.821.000,01202824,88199,00P
A=çrea de la secci—n
I
t
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X I
a
=M—dulo de alabeo de la secci—n
I
x
=Momento de inercia de la secci—n, respecto a X u=Per’metro de la secci—n
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=2I
y
: b. M—dulo resistente de la secci—n, respecto a Ye
2
=Espesor del ala en el eje del agujero
i
y
= . Radio de giro de la secci—n, respecto a Y p=Peso por m
I
x
A:
I:A
y
Tabla 2.A1.1.Perfiles IPN
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h be=re
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w a e
2
p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
IPN80 80423,95,92,359304 7,58 11,4 77,8 19,53,20 6,29 3,000,91 0,93 87,522Ñ4,43 5,95C
IPN100 100 504,56,82,77537010,60 19,9 171,0 34,24,01 12,20 4,881,07 1,72 268,028Ñ5,05 8,32P
IPN120 120 585,17,73,19243914,20 31,8 328,0 54,74,81 21,50 7,411,23 2,92 685,032Ñ5,6711,20P
IPN140 140 665,78,63,410950218,30 47,7 573,0 81,95,61 35,2010,701,40 4,66 1.540,034116,2914,40P
IPN160 160 746,39,53,812557522,80 68,0 935,0117,06,40 54,7014,801,55 7,08 3.138,040116,9117,90P
IPN180 180 826,910,44,114264027,90 93,4 1.450,0161,07,20 81,3019,801,7110,30 5.924,044137,5321,90P
IPN200 200 907,511,34,515970933,50 125,0 2.140,0214,08,00 117,0026,001,8714,60 10.520,048138,1526,30P
IPN220 220 988,112,24,917577539,60 162,0 3.060,0278,08,80 162,0033,102,0220,10 17.760,052138,7731,10P
IPN240 2401068,713,15,219284446,10 206,0 4.250,0354,09,59 221,0041,702,2027,00 28.730,056179,3936,20P
IPN260 2601139,414,15,620890653,40 257,0 5.740,0442,010,40 288,0051,002,3236,10 44.070,0601710,1541,90P
IPN280 28011910,115,26,122596661,10 316,0 7.590,0542,011,10 364,0061,202,4547,80 64.580,0621711,0448,00P
IPN300 30012510,816,26,52411.03069,10 381,0 9.800,0653,011,90 451,0072,202,5661,20 91.850,0642111,8354,20P
IPN320 32013111,517,36,92571.09077,80 457,012.510,0782,012,70 555,0084,702,6778,20 128.800,0702112,7261,10P
IPN340 34013712,218,37,32741.15086,80 540,015.700,0923,013,50 674,0098,402,8097,50 176.300,0742113,5168,10P
IPN360 36014313,019,57,82901.21097,10 638,019.610,01.090,014,20 818,00114,002,90123,00 240.100,0762314,5076,20P
IPN380 38014913,720,58,23061.270107,00 741,024.010,01.260,015,00 975,00131,003,02150,00 318.700,0822315,2984,00P
IPN400 40015514,421,68,63231.330118,00 857,029.210,01.460,015,701.160,00149,003,13183,00 419.600,0862316,1892,60P
IPN450 45017016,224,39,73631.478147,001.200,045.850,02.040,017,701.730,00203,003,43288,00 791.100,0942518,35115,00P
IPN500 50018518,027,010,84041.626180,001.620,068.740,02.750,019,602.480,00268,003,72449,001.403.000,01002820,53141,00P
IPN550 55020019,030,011,94451.787213,002.120,099.180,03.610,021,603.490,00349,004,02618,002.389.000,01102823,00167,00P
IPN600 60021521,632,413,04851.924254,002.730,0139.000,04.630,023,404.670,00434,004,30875,003.821.000,01202824,88199,00P
A=çrea de la secci—n
I
t
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X I
a
=M—dulo de alabeo de la secci—n
I
x
=Momento de inercia de la secci—n, respecto a X u=Per’metro de la secci—n
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=2I
y
: b. M—dulo resistente de la secci—n, respecto a Ye
2
=Espesor del ala en el eje del agujero
i
y
= . Radio de giro de la secci—n, respecto a Y p=Peso por m
I
x
A:
I:A
y
NBE EA-95.Estructuras de acero en edificaci—n 72
Tabla 2.A1.2.Perfiles IPE
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h b e e
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w a e
2
p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
IPE80 80463,85,2560 328 7,64 11,6 80,1 20,03,24 8,49 3,691,05 0,721 118Ñ Ñ 3,86,00C
IPE100 100 554,15,7775 40010,30 19,7 171,0 34,24,07 15,90 5,791,24 1,140 351Ñ Ñ 4,18,10C
IPE120 120 644,46,3793 47513,20 30,4 318,0 53,04,90 27,70 8,651,45 1,770 89035Ñ 4,410,40C
IPE140 140 734,76,9711255116,40 44,2 541,0 77,35,74 44,9012,301,65 2,630 1.9814011 4,712,90C
IPE160 160 825,07,4912762320,10 61,9 869,0109,0 6,58 68,3016,701,84 3,640 3.9594413 5,015,80P
IPE180 180 915,38,0914669823,90 83,21.320,0146,0 7,42 101,0022,202,05 5,060 7.4314813 5,318,80P
IPE200 2001005,68,51215978828,50 110,01.940,0194,0 8,26 142,0028,502,24 6,670 12.9905213 5,622,40P
IPE220 2201105,99,21217884833,40 143 2.770 252 9,11 205 37,32,48 9,15 22.6705817 5,926,20P
IPE240 2401206,29,81519092239,10 183 3.890 324 9,97 284 47,32,6912,00 37.3906517 6,230,70P
IPE270 2701356,610,2152201.04045,90 242 5.790 429 11,20 420 62,23,0215,40 70.5807221 6,636,10P
IPE300 3001507,110,7152491.16053,80 314 8.360 557 12,50 604 80,53,3520,10 125.9008023 7,142,20P
IPE330 3301607,511,5182711.25062,60 402 11.770 713 13,70 788 98,53,5526,50 199.1008525 7,549,10P
IPE360 3601708,012,7182991.35072,70 510 16.270 904 15,001.040 123,03,7937,30 313.6009025 8,057,10P
IPE400 4001808,613,5213311.47084,50 654 23.1301.160 16,501.320 146,03,9548,30 490.0009528 8,666,30P
IPE450 4501909,414,6213791.61098,80 851 33.7401.500 18,501.680 176,04,1265,90 791.00010028 9,477,60P
IPE500 50020010,216,0214261.740116,001.10048.2001.930 20,402.140 214,04,3191,80 1.249.0001102810,290,70P
IPE550 55021011,117,2244681.880134,001.39067.1202.440 22,302.670 254,04,45122,00 1.884.0001152811,1106,00C
IPE600 60022012,019,0245142.010155,001.76092.0803.070 24,303.390 308,04,66172,00 2.846.0001202812,0122,0C
A=çrea de la secci—n
I
t
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X I
a
=M—dulo de alabeo de la secci—n
I
x
=Momento de inercia de la secci—n, respecto a X u=Per’metro de la secci—n
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=2I
y
: b. M—dulo resistente de la secci—n, respecto a Yp=Peso por m
i
y
= . Radio de giro de la secci—n, respecto a Y
I
x
A:
I:A
y
Tabla 2.A1.2.Perfiles IPE
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h b e e
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w a e
2
p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
IPE80 80463,85,2560 328 7,64 11,6 80,1 20,03,24 8,49 3,691,05 0,721 118Ñ Ñ 3,86,00C
IPE100 100 554,15,7775 40010,30 19,7 171,0 34,24,07 15,90 5,791,24 1,140 351Ñ Ñ 4,18,10C
IPE120 120 644,46,3793 47513,20 30,4 318,0 53,04,90 27,70 8,651,45 1,770 89035Ñ 4,410,40C
IPE140 140 734,76,9711255116,40 44,2 541,0 77,35,74 44,9012,301,65 2,630 1.9814011 4,712,90C
IPE160 160 825,07,4912762320,10 61,9 869,0109,0 6,58 68,3016,701,84 3,640 3.9594413 5,015,80P
IPE180 180 915,38,0914669823,90 83,21.320,0146,0 7,42 101,0022,202,05 5,060 7.4314813 5,318,80P
IPE200 2001005,68,51215978828,50 110,01.940,0194,0 8,26 142,0028,502,24 6,670 12.9905213 5,622,40P
IPE220 2201105,99,21217884833,40 143 2.770 252 9,11 205 37,32,48 9,15 22.6705817 5,926,20P
IPE240 2401206,29,81519092239,10 183 3.890 324 9,97 284 47,32,6912,00 37.3906517 6,230,70P
IPE270 2701356,610,2152201.04045,90 242 5.790 429 11,20 420 62,23,0215,40 70.5807221 6,636,10P
IPE300 3001507,110,7152491.16053,80 314 8.360 557 12,50 604 80,53,3520,10 125.9008023 7,142,20P
IPE330 3301607,511,5182711.25062,60 402 11.770 713 13,70 788 98,53,5526,50 199.1008525 7,549,10P
IPE360 3601708,012,7182991.35072,70 510 16.270 904 15,001.040 123,03,7937,30 313.6009025 8,057,10P
IPE400 4001808,613,5213311.47084,50 654 23.1301.160 16,501.320 146,03,9548,30 490.0009528 8,666,30P
IPE450 4501909,414,6213791.61098,80 851 33.7401.500 18,501.680 176,04,1265,90 791.00010028 9,477,60P
IPE500 50020010,216,0214261.740116,001.10048.2001.930 20,402.140 214,04,3191,80 1.249.0001102810,290,70P
IPE550 55021011,117,2244681.880134,001.39067.1202.440 22,302.670 254,04,45122,00 1.884.0001152811,1106,00C
IPE600 60022012,019,0245142.010155,001.76092.0803.070 24,303.390 308,04,66172,00 2.846.0001202812,0122,0C
A=çrea de la secci—n
I
t
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X I
a
=M—dulo de alabeo de la secci—n
I
x
=Momento de inercia de la secci—n, respecto a X u=Per’metro de la secci—n
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=2I
y
: b. M—dulo resistente de la secci—n, respecto a Yp=Peso por m
i
y
= . Radio de giro de la secci—n, respecto a Y
I
x
A:
I:A
y
73 Anejos de la Parte 2
Tabla 2.A1.3.Perfiles HEB, HEA y HEM
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h b e e
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w w
1
a p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
HEB 100 1001006,010,01256 567 26,0 52,1 450 90 4,16 167 332,53 9,34 3.37555Ñ 13 20,4P
HEB 120 1201206,511,01274 686 34,0 82,6 864 144 5,04 318 533,0614,90 9.41065Ñ 17 26,7P
HEB 140 1401407,012,01292 805 43,0 123,0 1.509 216 5,93 550 793,5822,50 22.48075Ñ 21 33,7P
HEB 160 1601608,013,015104918 54,3 177,0 2.492 311 6,78 889 1114,0533,20 47.94085Ñ 23 42,6P
HEB 180 1801808,514,0151221.040 65,3 241,0 3.831 426 7,66 1.363 1514,5746,50 93.750100Ñ 25 51,2P
HEB 200 2002009,015,0181341.150 78,1 321,0 5.696 570 8,54 2.003 2005,0763,40 171.100110Ñ 25 61,3P
HEB 220 2202209,516,0181521.270 91,0 414,0 8.091 736 9,43 2.843 2585,5984,40 295.400120Ñ 25 71,5P
HEB 240 24024010,017,0211641.380106,0 527,0 11.259 93810,30 3.923 3276,08110,00 486.900903525 83,2P
HEB 260 26026010,017,5241771.500118,4 641,0 14.9191.15011,20 5.135 3956,58130,00 753.7001004025 93,0P
HEB 280 28028010,518,0241961.620131,4 767,0 19.2701.38012,10 6.595 4717,09153,00 1.130.0001104525 103,0P
HEB 300 30030011,019,0272081.730149,1 934,0 25.1661.68013,00 8.563 5717,58192,00 1.688.0001205025 117,0P
HEB 320 32030011,520,5272251.770161,31.070,0 30.8231.93013,80 9.239 6167,57241,00 2.069.0001205025 127,0P
HEB 340 34030012,021,5272431.810170,91.200,0 36.6562.16014,60 9.690 6467,53278,00 2.454.0001205025 134,0P
HEB 360 30030012,522,5272611.850180,61.340,0 43.1932.40015,50 10.140 6767,49320,00 2.883.0001205025 142,0P
HEB 400 40030013,524,0272981.930197,81.620,0 57.6802.88017,10 10.819 7217,40394,00 3.817.0001205025 155,0P
HEB 450 45030014,026,0273442.030218,01.990,0 79.8873.55019,10 11.721 7817,33500,00 5.258.0001205025 171,0P
HEB 500 50030014,528,0273902.120238,62.410,0107.1764.29021,20 12.624 8427,27625,00 7.018.0001204528 187,0C
HEB 550 55030015,029,0274382.220254,12.800,0136.6914.97023,20 13.077 8727,17701,00 8.856.0001204528 199,0C
HEB 600 60030015,530,0274862.320270,03.210,0171.0415.70025,20 13.530 9027,08783,0010.965.0001204528 212,0C
HEA 100 961005,08,01256 561 21,2 41,5 349 73 4,06 134 272,51 4,83 2.58155Ñ 13 16,7C
HEA 120 1141205,08,01274 677 25,3 59,7 606 106 4,89 231 383,02 5,81 6.47265Ñ 17 19,9C
HEA 140 1331405,58,51292 794 31,4 86,7 1.033 155 5,73 389 563,52 8,22 15.06075Ñ 21 24,7C
HEA 150 1521606,09,015104906 38,8 123,0 1.673 220 6,57 616 773,9811,30 31.41085Ñ 23 30,4C
HEA 180 1711806,09,5151221020 45,3 162,0 2.510 294 7,45 925 1034,5214,70 60.210100Ñ 25 35,5C
HEA 200 1902006,510,0181341140 53,8 215,0 3.692 389 8,28 1.336 1344,9819,20 108.000110Ñ 25 42,3C
HEA 220 2102207,011,0181521260 64,3 284,0 5.410 515 9,17 1.955 1785,5128,00 193.300120Ñ 25 50,5C
HEA 240 2302407,512,0211641370 76,8 372,0 7.763 67510,10 2.769 2316,0039,40 328.500903525 60,3C
HEA 260 2502607,512,5241771480 86,8 460,0 10.455 83611,00 3.668 2826,5047,80 516.4001004025 68,2C
HEA 280 2702808,013,0241961600 97,3 556,0 13.6731.01011,90 4.763 3407,0058,30 785.4001104525 76,4C
HEA 300 2903008,514,0272081720112,5 692,0 18.2631.26012,70 6.310 4217,4977,70 1.200.0001205025 88,3C
HEA 320 3103009,015,5272251760124,4 814,0 22.9281.48013,60 6.985 4667,49105,00 1.512.0001205025 97,6C
HEA 340 3303009,516,5272431790133,5 925,0 27.6931.68014,40 7.436 4967,46127,00 1.824.0001205025 105,0C
HEA 360 35030010,017,5272611830142,81.040,0 33.0901.89015,20 7.887 5267,43152,00 2.177.0001205025 112,0C
HEA 400 39030011,019,0272981910159,01.280,0 45.0692.31016,80 8.564 5717,34197,00 2.942.0001205025 125,0C
HEA 450 44030011,521,0273442010178,01.610,0 63.7222.90018,90 9.465 6317,29265,00 4.148.0001205025 140,0C
HEA 500 49030012,023,0273902110197,51.970,0 86.9753.55021,00 10.367 6917,24347,00 5.643.0001204528 155,0C
HEA 550 54030012,524,0274382210211,82.310,0111.9324.15023,00 10.819 7217,15398,00 7.189.0001204528 166,0C
HEA 600 59030013,025,0274862310226,52.680,0141.2084.79025,00 11.271 7517,05454,00 8.978.0001204528 178,0C
(continœa)
A=çrea de la secci—n
I
t
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X I
a
=M—dulo de alabeo de la secci—n
I
x
=Momento de inercia de la secci—n, respecto a X u=Per’metro de la secci—n
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=2I
y
: b. M—dulo resistente de la secci—n, respecto a Yp=Peso por m
i
y
= . Radio de giro de la secci—n, respecto a Y
I
x
A:
I:A
y
Tabla 2.A1.3.Perfiles HEB, HEA y HEM
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h b e e
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w w
1
a p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
HEB 100 1001006,010,01256 567 26,0 52,1 450 90 4,16 167 332,53 9,34 3.37555Ñ 13 20,4P
HEB 120 1201206,511,01274 686 34,0 82,6 864 144 5,04 318 533,0614,90 9.41065Ñ 17 26,7P
HEB 140 1401407,012,01292 805 43,0 123,0 1.509 216 5,93 550 793,5822,50 22.48075Ñ 21 33,7P
HEB 160 1601608,013,015104918 54,3 177,0 2.492 311 6,78 889 1114,0533,20 47.94085Ñ 23 42,6P
HEB 180 1801808,514,0151221.040 65,3 241,0 3.831 426 7,66 1.363 1514,5746,50 93.750100Ñ 25 51,2P
HEB 200 2002009,015,0181341.150 78,1 321,0 5.696 570 8,54 2.003 2005,0763,40 171.100110Ñ 25 61,3P
HEB 220 2202209,516,0181521.270 91,0 414,0 8.091 736 9,43 2.843 2585,5984,40 295.400120Ñ 25 71,5P
HEB 240 24024010,017,0211641.380106,0 527,0 11.259 93810,30 3.923 3276,08110,00 486.900903525 83,2P
HEB 260 26026010,017,5241771.500118,4 641,0 14.9191.15011,20 5.135 3956,58130,00 753.7001004025 93,0P
HEB 280 28028010,518,0241961.620131,4 767,0 19.2701.38012,10 6.595 4717,09153,00 1.130.0001104525 103,0P
HEB 300 30030011,019,0272081.730149,1 934,0 25.1661.68013,00 8.563 5717,58192,00 1.688.0001205025 117,0P
HEB 320 32030011,520,5272251.770161,31.070,0 30.8231.93013,80 9.239 6167,57241,00 2.069.0001205025 127,0P
HEB 340 34030012,021,5272431.810170,91.200,0 36.6562.16014,60 9.690 6467,53278,00 2.454.0001205025 134,0P
HEB 360 30030012,522,5272611.850180,61.340,0 43.1932.40015,50 10.140 6767,49320,00 2.883.0001205025 142,0P
HEB 400 40030013,524,0272981.930197,81.620,0 57.6802.88017,10 10.819 7217,40394,00 3.817.0001205025 155,0P
HEB 450 45030014,026,0273442.030218,01.990,0 79.8873.55019,10 11.721 7817,33500,00 5.258.0001205025 171,0P
HEB 500 50030014,528,0273902.120238,62.410,0107.1764.29021,20 12.624 8427,27625,00 7.018.0001204528 187,0C
HEB 550 55030015,029,0274382.220254,12.800,0136.6914.97023,20 13.077 8727,17701,00 8.856.0001204528 199,0C
HEB 600 60030015,530,0274862.320270,03.210,0171.0415.70025,20 13.530 9027,08783,0010.965.0001204528 212,0C
HEA 100 961005,08,01256 561 21,2 41,5 349 73 4,06 134 272,51 4,83 2.58155Ñ 13 16,7C
HEA 120 1141205,08,01274 677 25,3 59,7 606 106 4,89 231 383,02 5,81 6.47265Ñ 17 19,9C
HEA 140 1331405,58,51292 794 31,4 86,7 1.033 155 5,73 389 563,52 8,22 15.06075Ñ 21 24,7C
HEA 150 1521606,09,015104906 38,8 123,0 1.673 220 6,57 616 773,9811,30 31.41085Ñ 23 30,4C
HEA 180 1711806,09,5151221020 45,3 162,0 2.510 294 7,45 925 1034,5214,70 60.210100Ñ 25 35,5C
HEA 200 1902006,510,0181341140 53,8 215,0 3.692 389 8,28 1.336 1344,9819,20 108.000110Ñ 25 42,3C
HEA 220 2102207,011,0181521260 64,3 284,0 5.410 515 9,17 1.955 1785,5128,00 193.300120Ñ 25 50,5C
HEA 240 2302407,512,0211641370 76,8 372,0 7.763 67510,10 2.769 2316,0039,40 328.500903525 60,3C
HEA 260 2502607,512,5241771480 86,8 460,0 10.455 83611,00 3.668 2826,5047,80 516.4001004025 68,2C
HEA 280 2702808,013,0241961600 97,3 556,0 13.6731.01011,90 4.763 3407,0058,30 785.4001104525 76,4C
HEA 300 2903008,514,0272081720112,5 692,0 18.2631.26012,70 6.310 4217,4977,70 1.200.0001205025 88,3C
HEA 320 3103009,015,5272251760124,4 814,0 22.9281.48013,60 6.985 4667,49105,00 1.512.0001205025 97,6C
HEA 340 3303009,516,5272431790133,5 925,0 27.6931.68014,40 7.436 4967,46127,00 1.824.0001205025 105,0C
HEA 360 35030010,017,5272611830142,81.040,0 33.0901.89015,20 7.887 5267,43152,00 2.177.0001205025 112,0C
HEA 400 39030011,019,0272981910159,01.280,0 45.0692.31016,80 8.564 5717,34197,00 2.942.0001205025 125,0C
HEA 450 44030011,521,0273442010178,01.610,0 63.7222.90018,90 9.465 6317,29265,00 4.148.0001205025 140,0C
HEA 500 49030012,023,0273902110197,51.970,0 86.9753.55021,00 10.367 6917,24347,00 5.643.0001204528 155,0C
HEA 550 54030012,524,0274382210211,82.310,0111.9324.15023,00 10.819 7217,15398,00 7.189.0001204528 166,0C
HEA 600 59030013,025,0274862310226,52.680,0141.2084.79025,00 11.271 7517,05454,00 8.978.0001204528 178,0C
(continœa)
A=çrea de la secci—n
I
t
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X I
a
=M—dulo de alabeo de la secci—n
I
x
=Momento de inercia de la secci—n, respecto a X u=Per’metro de la secci—n
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=2I
y
: b. M—dulo resistente de la secci—n, respecto a Yp=Peso por m
i
y
= . Radio de giro de la secci—n, respecto a Y
I
x
A:
I:A
y
NBE EA-95.Estructuras de acero en edificaci—n 74
Tabla 2.A1.3.(Continuaci—n)
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h b e e
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w w
1
a p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
HEM 100 12010612,020,01256 619 53,2 118,0 1.143 190 4,63 399 752,7478,90 9.92555Ñ 13 41,8C
HEM 120 14012612,521,01274 738 66,4 175,0 2.018 288 5,51 703 1123,25109,00 24.79065Ñ 17 52,1C
HEM 140 16014613,022,01292 835 80,6 247,0 3.291 411 6,39 1.144 1573,77145,00 54.33073Ñ 21 63,2C
HEM 160 18016614,023,015104970 97,1 337,0 5.098 566 7,25 1.759 2124,26190,00 108.10085Ñ 23 76,2C
HEM 180 20018614,524,0151221.090113,3 442,0 7.483 748 8,13 2.580 2774,77241,00 199.30095Ñ 25 88,9C
HEM 200 22020615,025,0181341.200131,3 568,0 10.620 967 9,00 3.651 3545,27301,00 346.300105Ñ 25 103,0C
HEM 220 24022615,526,0181521.320149,4 710,0 14.6051.2209,89 5.012 4445,79372,00 572.700115Ñ 25 117,0C
HEM 240 27024818,032,0211641.460199,61.060,0 24.2891.80011,00 8.153 6576,39751,00 1.152.000903525 157,0C
HEM 260 29026818,032,5241771.570219,61.260,0 31.3072.16011,90 10.449 7806,90848,00 1.728.0001004025 172,0C
HEM 280 31028818,533,0241961.690240,21.480,0 39.5472.55012,80 13.163 9147,40957,00 2.520.0001104525 189,0C
HEM 300 32030516,029,0272081.780225,11.460,0 40.9512.56013,50 13.736 9017,81686,00 2.903.0001205025 177,0C
HEM 300 34031021,039,0272081.830303,12.040,0 59.2013.48014,00 19.4031.2528,001.690,004.386.0001205025 238,0C
HEM 320 35930921,040,0272251.870312,02.220,0 68.1353.80014,80 19.7091.2807,951.810,005.004.0001205025 245,0C
HEM 340 37730921,040,0272431.900315,82.360,0 76.3724.05015,60 19.7111.2807,901.820,005.585.0001205025 248,0C
HEM 360 39530821,040,0272611.930318,82.490,0 84.8674.30016,30 19.5221.2707,831.820,006.137.0001205025 250,0C
HEM 400 43230721,040,0272982.000325,82.790,0104.1194.82017,90 19.3351.2607,701.830,007.410.0001205025 256,0C
HEM 450 47830721,040,0273442.100335,43.170,0131.4845.50019,80 19.3391.2607,591.850,009.252.0001205025 263,0C
HEM 500 52430621,040,0273902.180344,33.550,0161.9296.18021,70 19.1551.2507,461.860,0011.187.0001205028 270,0C
HEM 550 57230621,040,0274382.280354,43.970,0197.9846.92023,60 19.1581.2507,351.880,0013.516.0001205028 278,0C
HEM 600 62030521,040,0274862.370363,74.390,0237.4477.66025,60 18.9751.2407,221.890,0015.908.0001205028 285,0C
Tabla 2.A1.4.Perfiles UPN
Dimensiones TŽrminos de secci—n AgujerosPeso
Perfil
h b ee
1
=rr
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
c m w a p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm cm mmmm kp/m
UPN80 80456,08,04,04631211,015,9106 26,53,1019,46,361,332,241,452,672513 8,64C
UPN100100506,08,54,56437213,524,5206 41,23,9129,38,491,472,961,552,93301310,60P
UPN120120557,09,04,58243417,036,3364 60,74,6243,211,101,594,301,603,03301713,40P
UPN140140607,010,05,09848920,451,4605 86,45,4562,714,801,756,021,753,37351716,00P
UPN160160657,510,55,511554624,068,8925116,06,2185,318,301,897,811,843,56352118,80P
UPN180180708,011,05,513361128,089,61350150,06,95114,022,402,029,981,923,75402122,00P
UPN200200758,511,56,015166132,2114,01910191,07,70148,027,002,1412,602,013,94402325,30P
UPN220220809,012,56,516771837,4146,02690245,08,48197,033,602,3017,002,144,20452329,40P
UPN240240859,513,06,518477542,3179,03600300,09,22248,039,602,4220,802,234,39452533,20P
UPN2602609010,014,07,020083448,3221,04820371,09,99317,047,702,5623,702,364,66502537,90P
UPN2802809510,015,07,521689053,3266,06280448,010,90399,057,202,7433,202,535,02502541,80P
UPN30030010010,016,08,023295058,8316,08030535,011,70495,067,802,9040,602,705,41552546,20P
A=çrea de la secci—n I
r
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X c=Posici—n del eje Y
I
x
=Momento de inercia de la secci—n, respecto a X m=Distancia al centro de esfuerzos cortantes
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=I
y
: (bÐc). M’nimo m—dulo resistente de la secci—n,p=Peso por m
respecto a Y u=Per’metro
i
y
= . Radio de giro de la secci—n, respecto a Y
I
x
A:
I:A
y
Tabla 2.A1.3.(Continuaci—n)
Dimensiones TŽrminos de secci—n Agujeros Peso
Perfil
h b e e
1
r
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
I
a
w w
1
a p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm
6
mmmmmm kp/m
HEM 100 12010612,020,01256 619 53,2 118,0 1.143 190 4,63 399 752,7478,90 9.92555Ñ 13 41,8C
HEM 120 14012612,521,01274 738 66,4 175,0 2.018 288 5,51 703 1123,25109,00 24.79065Ñ 17 52,1C
HEM 140 16014613,022,01292 835 80,6 247,0 3.291 411 6,39 1.144 1573,77145,00 54.33073Ñ 21 63,2C
HEM 160 18016614,023,015104970 97,1 337,0 5.098 566 7,25 1.759 2124,26190,00 108.10085Ñ 23 76,2C
HEM 180 20018614,524,0151221.090113,3 442,0 7.483 748 8,13 2.580 2774,77241,00 199.30095Ñ 25 88,9C
HEM 200 22020615,025,0181341.200131,3 568,0 10.620 967 9,00 3.651 3545,27301,00 346.300105Ñ 25 103,0C
HEM 220 24022615,526,0181521.320149,4 710,0 14.6051.2209,89 5.012 4445,79372,00 572.700115Ñ 25 117,0C
HEM 240 27024818,032,0211641.460199,61.060,0 24.2891.80011,00 8.153 6576,39751,00 1.152.000903525 157,0C
HEM 260 29026818,032,5241771.570219,61.260,0 31.3072.16011,90 10.449 7806,90848,00 1.728.0001004025 172,0C
HEM 280 31028818,533,0241961.690240,21.480,0 39.5472.55012,80 13.163 9147,40957,00 2.520.0001104525 189,0C
HEM 300 32030516,029,0272081.780225,11.460,0 40.9512.56013,50 13.736 9017,81686,00 2.903.0001205025 177,0C
HEM 300 34031021,039,0272081.830303,12.040,0 59.2013.48014,00 19.4031.2528,001.690,004.386.0001205025 238,0C
HEM 320 35930921,040,0272251.870312,02.220,0 68.1353.80014,80 19.7091.2807,951.810,005.004.0001205025 245,0C
HEM 340 37730921,040,0272431.900315,82.360,0 76.3724.05015,60 19.7111.2807,901.820,005.585.0001205025 248,0C
HEM 360 39530821,040,0272611.930318,82.490,0 84.8674.30016,30 19.5221.2707,831.820,006.137.0001205025 250,0C
HEM 400 43230721,040,0272982.000325,82.790,0104.1194.82017,90 19.3351.2607,701.830,007.410.0001205025 256,0C
HEM 450 47830721,040,0273442.100335,43.170,0131.4845.50019,80 19.3391.2607,591.850,009.252.0001205025 263,0C
HEM 500 52430621,040,0273902.180344,33.550,0161.9296.18021,70 19.1551.2507,461.860,0011.187.0001205028 270,0C
HEM 550 57230621,040,0274382.280354,43.970,0197.9846.92023,60 19.1581.2507,351.880,0013.516.0001205028 278,0C
HEM 600 62030521,040,0274862.370363,74.390,0237.4477.66025,60 18.9751.2407,221.890,0015.908.0001205028 285,0C
Tabla 2.A1.4.Perfiles UPN
Dimensiones TŽrminos de secci—n AgujerosPeso
Perfil
h b ee
1
=rr
1
h
1
u A S
x
I
x
W
x
i
x
I
y
W
y
i
y
I
t
c m w a p
mmmmmmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
4
cm
3
cm cm
4
cm cm mmmm kp/m
UPN80 80456,08,04,04631211,015,9106 26,53,1019,46,361,332,241,452,672513 8,64C
UPN100100506,08,54,56437213,524,5206 41,23,9129,38,491,472,961,552,93301310,60P
UPN120120557,09,04,58243417,036,3364 60,74,6243,211,101,594,301,603,03301713,40P
UPN140140607,010,05,09848920,451,4605 86,45,4562,714,801,756,021,753,37351716,00P
UPN160160657,510,55,511554624,068,8925116,06,2185,318,301,897,811,843,56352118,80P
UPN180180708,011,05,513361128,089,61350150,06,95114,022,402,029,981,923,75402122,00P
UPN200200758,511,56,015166132,2114,01910191,07,70148,027,002,1412,602,013,94402325,30P
UPN220220809,012,56,516771837,4146,02690245,08,48197,033,602,3017,002,144,20452329,40P
UPN240240859,513,06,518477542,3179,03600300,09,22248,039,602,4220,802,234,39452533,20P
UPN2602609010,014,07,020083448,3221,04820371,09,99317,047,702,5623,702,364,66502537,90P
UPN2802809510,015,07,521689053,3266,06280448,010,90399,057,202,7433,202,535,02502541,80P
UPN30030010010,016,08,023295058,8316,08030535,011,70495,067,802,9040,602,705,41552546,20P
A=çrea de la secci—n I
r
=M—dulo de torsi—n de la secci—n
S
x
=Momento est‡tico de media secci—n, respecto a X c=Posici—n del eje Y
I
x
=Momento de inercia de la secci—n, respecto a X m=Distancia al centro de esfuerzos cortantes
W
x
=2I
x
: h. M—dulo resistente de la secci—n, respecto a Xa=Di‡metro del agujero del robl—n normal
i
x
= . Radio de giro de la secci—n, respecto a X w=Gramil, distancia entre ejes de agujeros
I
y
=Momento de inercia de la secci—n, respecto a Y h
1
=Altura de la parte plana del alma
W
y
=I
y
: (bÐc). M’nimo m—dulo resistente de la secci—n,p=Peso por m
respecto a Y u=Per’metro
i
y
= . Radio de giro de la secci—n, respecto a Y
I
x
A:
I:A
y
75 Anejos de la Parte 2
Tabla 2.A1.5.Perfiles L
Dimensiones Posici—n del centro TŽrminos de secci—n Agujeros Peso
Perfil
b e r r
1
u c v
1
v
2
w A I
x
I
z
I
h
W
x
W
h
i
x
i
z
i
h
w
1
w
2
w
3
a p
mmmmmmmmmm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
3
cm
3
cm cm cm mmmmmmmm kp/m
L40.4 40 4 63,01551,121,581,402,833,08 4,47 7,09 1,861,55 1,171,211,520,7822 Ñ 1811 2,42P
L40.5 40 5 63,01551,161,641,422,833,79 5,43 8,60 2,261,91 1,371,201,510,7722 Ñ 1811 2,97C
L40.6 40 6 63,01551,201,701,432,834,48 6,31 9,98 2,652,26 1,561,191,490,7722 Ñ 1811 3,52C
L45.4 45 4 73,51741,231,751,573,183,49 6,4310,20 2,671,97 1,531,361,710,8825 Ñ 2013 2,74P
L45.5 45 5 73,51741,281,811,583,164,30 7,8412,40 3,262,43 1,801,351,700,8725 Ñ 2013 3,38P
L45.6 45 6 73,51741,321,871,593,185,09 9,1614,50 3,822,88 2,051,341,690,8725 Ñ 2013 4,00C
L50.4 50 4 73,51941,361,921,753,543,89 8,9714,20 3,722,46 1,941,521,910,9830 Ñ 2013 3,06P
L50.5 50 5 73,51941,401,991,763,544,8011,0017,40 4,543,05 2,291,511,900,9730 Ñ 2013 3,77P
L50.6 50 6 73,51941,452,041,773,545,6912,8020,30 5,333,61 2,611,501,890,9730 Ñ 2013 4,47C
L50.7 50 7 73,51941,492,101,783,546,5614,6023,10 6,114,16 2,911,491,880,9630 Ñ 2013 5,15C
L50.8 50 8 73,51941,522,161,803,547,4116,3025,70 6,874,68 3,191,481,860,9630 Ñ 2013 5,82C
L60.5 60 5 84,02331,642,322,114,245,8219,4030,70 8,024,45 3,451,822,301,1735 Ñ 2517 4,57P
L60.6 60 6 84,02331,692,392,114,246,9122,8036,20 9,435,29 3,951,822,291,1735 Ñ 2517 5,42P
L60.8 60 8 84,02331,772,502,144,249,0329,2046,2012,206,89 4,661,802,261,1635 Ñ 2517 7,09C
L60.10 6010 84,02331,852,612,174,2411,1034,9055,1014,808,41 5,671,782,231,1635 Ñ 2517 8,69C
L70.6 70 6 94,52721,932,732,464,958,13 36,9 58,5 15,37,27 5,592,132,681,3740 Ñ 3021 6,38P
L70.7 70 7 94,52721,972,792,474,959,40 42,3 67,1 17,58,41 6,272,122,671,3640 Ñ 3021 7,38P
L70.8 70 8 94,52722,012,852,474,9510,60 47,5 75,3 19,79,52 6,912,112,661,3640 Ñ 3021 8,36C
L70.10 7010 94,52722,092,962,504,9513,10 57,2 90,5 23,911,70 8,102,092,631,3540 Ñ 302110,30C
L80.8 80 8105,03112,263,192,825,6612,30 72,2115,0 29,912,60 9,362,433,061,5645 Ñ 3523 9,63P
L80.10 8010105,03112,343,302,855,6615,10 87,5139,0 36,313,4011,002,413,031,5545 Ñ 352311,90C
L80.12 8012105,03112,413,412,895,6617,90102,0161,0 42,718,2012,502,393,001,5545 Ñ 352314,00C
L90.8 90 8115,53512,503,533,176,3613,90104,0166,0 43,116,1012,202,743,451,7650 Ñ 402510,90P
L90.10 9010115,53512,583,653,196,3617,10127,0201,0 52,519,8014,402,723,431,7550 Ñ 402513,40C
L90.12 9012115,53512,663,763,226,3620,30148,0234,0 61,723,3016,402,703,401,7450 Ñ 402515,90C
L100.8 100 8126,03902,743,873,527,0715,50145,0230,0 59,819,9015,503,063,851,9645 60402512,20P
L100.10 10010126,03902,823,993,547,0719,20177,0280,0 72,924,6018,303,043,831,9545 60402515,00P
L100.12 10012126,03902,904,113,577,0722,70207,0328,0 85,729,1020,903,023,801,9445 60402517,80C
L100.15 10015126,03903,024,273,617,0727,90249,0393,0104,035,6024,402,983,751,9345 60402521,90C
L120.10 12010136,54693,314,694,238,4923,20313,0497,0129,036,0027,503,674,632,3650 80402518,20P
L120.12 12012136,54693,404,804,288,4927,50368,0584,0152,042,7031,503,654,602,3550 80402521,60P
L120.15 12015136,54693,514,974,318,4933,90445,0705,0185,052,4037,103,624,562,3350 80402526,60C
L150.12 15012168,05864,125,835,2910,6034,80737,01.170,0303,067,7052,004,605,802,9550105452827,30P
L150.15 15015168,05864,256,015,3310,6043,00898,01.430,0370,083,5061,604,575,762,9350105452833,80P
L150.18 15018168,05864,376,175,3810,6051,001.050,01.670,0435,098,7070,404,545,712,9250105452840,10C
L180.15 18015189,07054,987,056,3612,7052,101.590,02.520,0653,0122,092,605,526,963,5460135452840,90C
L180.18 18018189,07055,107,226,4112,7061,901.870,02.960,0768,0145,0106,005,496,923,5260135452848,60C
L180.20 18020189,07055,187,336,4412,7068,302.040,03.240,0843,0159,0115,005,476,893,5160135452853,70C
L200.16 20016189,07855,527,817,0914,1061,802.340,03.720,0960,0162,0123,006,167,763,9460150502848,50C
L200.18 20018189,07855,607,937,1214,1069,102.600,04.130,01.070,0181,0135,006,137,733,9360150502854,20C
L200.20 20020189,07855,688,047,1514,1076,302.850,04.530,01.170,0199,0146,006,117,703,9260150502859,90C
L200.24 20024189,07855,848,267,2114,1090,603.330,05.280,01.380,0235,0167,006,067,643,9060150502871,10C
A=çrea de la secci—n u=Per’metro
I
x
=Momento de inercia de la secci—n, respecto a X p=Peso por m
I
z
=Momento de inercia de la secci—n, respecto a z a=Di‡metro del agujero
I
h
=Momento de inercia de la secci—n, respecto a h
del robl—n normal
W
x
=I
x
: (bÐc). M—dulo resistente de la secci—n, respecto a X
W
h
=I
h
: V
1
. M—dulo resistente de la secci—n, respecto a h
i
x
= . Radio de giro de la secci—n, respecto a X
i
z
= . Radio de giro de la secci—n, respecto a z
i
h
= . Radio de giro de la secci—n, respecto a h
I
x
A:
I
z
:A
I
h
:A
Tabla 2.A1.5.Perfiles L
Dimensiones Posici—n del centro TŽrminos de secci—n Agujeros Peso
Perfil
b e r r
1
u c v
1
v
2
w A I
x
I
z
I
h
W
x
W
h
i
x
i
z
i
h
w
1
w
2
w
3
a p
mmmmmmmmmm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
3
cm
3
cm cm cm mmmmmmmm kp/m
L40.4 40 4 63,01551,121,581,402,833,08 4,47 7,09 1,861,55 1,171,211,520,7822 Ñ 1811 2,42P
L40.5 40 5 63,01551,161,641,422,833,79 5,43 8,60 2,261,91 1,371,201,510,7722 Ñ 1811 2,97C
L40.6 40 6 63,01551,201,701,432,834,48 6,31 9,98 2,652,26 1,561,191,490,7722 Ñ 1811 3,52C
L45.4 45 4 73,51741,231,751,573,183,49 6,4310,20 2,671,97 1,531,361,710,8825 Ñ 2013 2,74P
L45.5 45 5 73,51741,281,811,583,164,30 7,8412,40 3,262,43 1,801,351,700,8725 Ñ 2013 3,38P
L45.6 45 6 73,51741,321,871,593,185,09 9,1614,50 3,822,88 2,051,341,690,8725 Ñ 2013 4,00C
L50.4 50 4 73,51941,361,921,753,543,89 8,9714,20 3,722,46 1,941,521,910,9830 Ñ 2013 3,06P
L50.5 50 5 73,51941,401,991,763,544,8011,0017,40 4,543,05 2,291,511,900,9730 Ñ 2013 3,77P
L50.6 50 6 73,51941,452,041,773,545,6912,8020,30 5,333,61 2,611,501,890,9730 Ñ 2013 4,47C
L50.7 50 7 73,51941,492,101,783,546,5614,6023,10 6,114,16 2,911,491,880,9630 Ñ 2013 5,15C
L50.8 50 8 73,51941,522,161,803,547,4116,3025,70 6,874,68 3,191,481,860,9630 Ñ 2013 5,82C
L60.5 60 5 84,02331,642,322,114,245,8219,4030,70 8,024,45 3,451,822,301,1735 Ñ 2517 4,57P
L60.6 60 6 84,02331,692,392,114,246,9122,8036,20 9,435,29 3,951,822,291,1735 Ñ 2517 5,42P
L60.8 60 8 84,02331,772,502,144,249,0329,2046,2012,206,89 4,661,802,261,1635 Ñ 2517 7,09C
L60.10 6010 84,02331,852,612,174,2411,1034,9055,1014,808,41 5,671,782,231,1635 Ñ 2517 8,69C
L70.6 70 6 94,52721,932,732,464,958,13 36,9 58,5 15,37,27 5,592,132,681,3740 Ñ 3021 6,38P
L70.7 70 7 94,52721,972,792,474,959,40 42,3 67,1 17,58,41 6,272,122,671,3640 Ñ 3021 7,38P
L70.8 70 8 94,52722,012,852,474,9510,60 47,5 75,3 19,79,52 6,912,112,661,3640 Ñ 3021 8,36C
L70.10 7010 94,52722,092,962,504,9513,10 57,2 90,5 23,911,70 8,102,092,631,3540 Ñ 302110,30C
L80.8 80 8105,03112,263,192,825,6612,30 72,2115,0 29,912,60 9,362,433,061,5645 Ñ 3523 9,63P
L80.10 8010105,03112,343,302,855,6615,10 87,5139,0 36,313,4011,002,413,031,5545 Ñ 352311,90C
L80.12 8012105,03112,413,412,895,6617,90102,0161,0 42,718,2012,502,393,001,5545 Ñ 352314,00C
L90.8 90 8115,53512,503,533,176,3613,90104,0166,0 43,116,1012,202,743,451,7650 Ñ 402510,90P
L90.10 9010115,53512,583,653,196,3617,10127,0201,0 52,519,8014,402,723,431,7550 Ñ 402513,40C
L90.12 9012115,53512,663,763,226,3620,30148,0234,0 61,723,3016,402,703,401,7450 Ñ 402515,90C
L100.8 100 8126,03902,743,873,527,0715,50145,0230,0 59,819,9015,503,063,851,9645 60402512,20P
L100.10 10010126,03902,823,993,547,0719,20177,0280,0 72,924,6018,303,043,831,9545 60402515,00P
L100.12 10012126,03902,904,113,577,0722,70207,0328,0 85,729,1020,903,023,801,9445 60402517,80C
L100.15 10015126,03903,024,273,617,0727,90249,0393,0104,035,6024,402,983,751,9345 60402521,90C
L120.10 12010136,54693,314,694,238,4923,20313,0497,0129,036,0027,503,674,632,3650 80402518,20P
L120.12 12012136,54693,404,804,288,4927,50368,0584,0152,042,7031,503,654,602,3550 80402521,60P
L120.15 12015136,54693,514,974,318,4933,90445,0705,0185,052,4037,103,624,562,3350 80402526,60C
L150.12 15012168,05864,125,835,2910,6034,80737,01.170,0303,067,7052,004,605,802,9550105452827,30P
L150.15 15015168,05864,256,015,3310,6043,00898,01.430,0370,083,5061,604,575,762,9350105452833,80P
L150.18 15018168,05864,376,175,3810,6051,001.050,01.670,0435,098,7070,404,545,712,9250105452840,10C
L180.15 18015189,07054,987,056,3612,7052,101.590,02.520,0653,0122,092,605,526,963,5460135452840,90C
L180.18 18018189,07055,107,226,4112,7061,901.870,02.960,0768,0145,0106,005,496,923,5260135452848,60C
L180.20 18020189,07055,187,336,4412,7068,302.040,03.240,0843,0159,0115,005,476,893,5160135452853,70C
L200.16 20016189,07855,527,817,0914,1061,802.340,03.720,0960,0162,0123,006,167,763,9460150502848,50C
L200.18 20018189,07855,607,937,1214,1069,102.600,04.130,01.070,0181,0135,006,137,733,9360150502854,20C
L200.20 20020189,07855,688,047,1514,1076,302.850,04.530,01.170,0199,0146,006,117,703,9260150502859,90C
L200.24 20024189,07855,848,267,2114,1090,603.330,05.280,01.380,0235,0167,006,067,643,9060150502871,10C
A=çrea de la secci—n u=Per’metro
I
x
=Momento de inercia de la secci—n, respecto a X p=Peso por m
I
z
=Momento de inercia de la secci—n, respecto a z a=Di‡metro del agujero
I
h
=Momento de inercia de la secci—n, respecto a h
del robl—n normal
W
x
=I
x
: (bÐc). M—dulo resistente de la secci—n, respecto a X
W
h
=I
h
: V
1
. M—dulo resistente de la secci—n, respecto a h
i
x
= . Radio de giro de la secci—n, respecto a X
i
z
= . Radio de giro de la secci—n, respecto a z
i
h
= . Radio de giro de la secci—n, respecto a h
I
x
A:
I
z
:A
I
h
:A
NBE EA-95.Estructuras de acero en edificaci—n 76
Tabla 2.A1.6.Perfiles LD
Dimensiones Posici—n del centro TŽrminos de secci—n Peso
Perfil
a b e rr
1
u c
x
c
y
w¢w¢¢V¢V¢¢V¢¢¢A I
x
I
y
I
z
I
h
W
x
W
y
i
x
i
y
i
z
i
h
p
mmmmmmmmmmmmcmcmcmcmcmcmcmcm
2
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cmcmcmcmkp/m
L40.25.440254 42,01271,30,62,61,91,01,30,62,46 3,89 1,16 4,350,701,470,621,260,691,330,5311,93C
L40.25.540255 42,01271,40,62,61,91,11,30,73,02 4,69 1,39 5,230,851,810,761,250,681,320,532,37C
L45.30.445304 42,01471,40,73,02,31,21,50,82,86 5,77 2,05 6,631,191,910,911,420,851,520,652,24C
L45.30.445305 42,01471,50,73,02,31,31,50,83,52 6,98 2,47 8,001,452,351,111,410,841,510,642,76C
L60.30.560305 63,01752,10,63,82,71,21,70,74,29 15,60 2,60 16,501,704,041,121,900,781,960,633,37C
L60.30.660306 63,01752,20,73,82,71,21,70,75,08 18,20 3,02 19,201,994,781,321,890,771,950,633,99C
L60.40.560405 63,01951,90,94,13,01,62,11,14,79 17,20 6,11 19,803,544,252,021,891,132,030,863,76C
L60.40.660406 63,01952,01,04,03,01,72,11,15,68 20,10 7,12 23,104,155,032,381,881,122,020,864,46C
L60.40.760407 63,01952,01,04,03,01,72,01,16,55 22,90 8,07 26,304,755,792,741,871,112,000,855,14C
L65.50.565505 63,02251,91,24,53,62,02,31,55,54 23,20 11,90 28,806,325,143,192,051,472,281,074,35C
L65.50.665506 63,02252,01,24,53,62,12,31,56,58 27,20 14,00 33,807,436,103,772,031,462,271,065,16C
L65.50.765507 63,02252,01,34,53,62,12,31,57,60 31,10 15,90 38,508,517,034,342,021,452,251,065,96C
L65.50.865508 63,02252,11,34,43,72,22,31,58,60 34,80 17,70 43,009,567,934,892,011,442,241,056,75C
L75.50.575505 73,52442,31,15,13,82,02,61,36,05 34,40 12,30 39,607,116,743,212,381,432,561,084,75C
L75.50.675506 73,52442,41,25,13,82,02,61,37,19 40,50 14,40 46,608,368,013,812,371,422,551,085,65C
L75.50.775507 73,52442,41,25,13,82,12,61,38,31 46,40 16,50 53,309,579,244,392,361,412,531,076,53C
L75.50.875508 73,52442,51,25,03,82,12,61,49,41 52,00 18,40 59,7010,8010,404,952,351,402,521,077,39C
L80.40.580405 73,52342,80,85,23,51,52,40,95,80 38,20 6,49 40,504,197,352,062,561,062,640,854,56C
L80.40.680406 73,52342,80,85,23,51,52,30,86,89 44,90 7,59 47,604,928,732,442,551,082,630,855,41C
L80.40.780407 73,52342,90,95,13,61,62,30,97,96 51,40 8,63 54,405,6410,102,812,541,042,610,846,25C
L80.40.880408 73,52342,90,95,13,61,62,31,09,01 57,60 9,61 60,906,3311,403,162,531,032,600,847,07C
L80.60.680606 84,02732,41,45,53,82,52,91,78,11 51,40 24,80 62,8013,409,295,492,521,752,781,296,37C
L80.60.780607 84,02732,51,55,53,82,52,91,79,38 59,00 28,40 72,0015,4010,706,342,511,742,771,287,36C
L80.60.880608 84,02732,51,55,53,82,52,91,810,60 66,30 31,80 80,8017,3012,207,162,501,732,761,278,34C
L100.50.6100506 94,52923,41,06,54,41,93,01,18,73 89,70 15,30 95,109,8513,803,853,211,323,301,066,85C
L100.50.7100507 94,52923,51,06,54,41,92,91,110,10103,00 17,40109,0011,3016,004,463,201,313,291,067,93C
L100.50.8100508 94,52923,51,16,44,42,02,91,111,40116,00 19,50123,0012,7018,105,043,181,313,281,058,99C
L100.50.101005010 94,52923,61,26,44,52,02,91,214,10141,00 23,40149,0015,4022,206,173,161,293,251,0511,10C
L100.65.7100657105,03213,21,56,84,92,63,41,711,20113,00 57,60128,0022,0016,607,533,171,833,391,408,77C
L100.65.8100658105,03213,21,56,84,92,63,41,712,70127,00 42,20144,0024,8018,908,543,161,833,371,409,94C
L100.65.101006510105,03213,31,66,75,02,73,41,715,60154,00 51,00175,0030,1023,2010,503,141,813,351,3912,30C
L100.75.8100758105,03413,11,86,95,43,13,62,113,50133,00 64,10163,0034,6019,3011,403,142,183,471,6010,60P
L100.75.101007510105,03413,11,96,95,43,23,62,216,60162,00 77,60197,0042,2023,8014,003,122,163,451,5913,00P
L100.75.121007512105,03413,22,06,85,53,33,62,219,70189,00 90,20230,0049,5028,0016,503,102,143,421,5915,40P
L120.80.8120808115,53913,81,88,26,03,24,22,115,50226,00 80,80260,0046,6027,6013,203,822,284,101,7312,20P
L120.80.101208010115,53913,91,98,16,03,34,22,119,10276,00 98,10317,0056,8034,1016,203,802,264,071,7215,00P
L120.80.121208012115,59314,02,08,16,03,44,22,222,70323,00114,00371,0066,6040,4019,103,772,244,041,7117,80P
L130.65.8130658115,53814,51,38,55,82,43,91,415,10263,00 44,80278,0028,9031,108,204,171,724,301,3811,80C
L130.65.101306510115,53814,61,48,45,82,53,81,518,60320,00 54,20339,0035,2038,4010,704,151,714,271,3714,60C
L130.65.121306512115,53814,71,58,35,92,63,81,622,10375,00 63,00397,0041,2045,4012,704,121,694,241,3717,30C
L150.75.9150759115,54415,21,59,86,62,94,51,719,60456,00 78,30484,0050,4046,9013,204,832,004,971,6015,4C
L150.75.101507510115,54415,31,69,76,62,94,41,721,60501,00 85,80532,0055,3051,8014,64,811,994,961,6017,0C
L150.75.121507512115,54415,41,69,76,62,94,41,825,70589,00 99,90624,0064,9061,4017,24,791,974,931,5920,2C
L150.75.151507515115,54415,51,89,66,93,14,41,931,60713,00120,00754,0078,8075,3021,04,751,944,881,5824,8C
L150.90.101509010126,04705,02,010,17,13,65,02,223,20533,00146,00591,0088,2053,3021,04,802,515,051,9518,2C
L150.90.121509012126,04705,02,110,17,13,75,02,327,50627,00171,00695,00104,0063,3024,84,772,495,021,9421,6C
L150.90.151509015126,04705,22,29,97,23,84,92,433,90761,00205,00841,00126,0077,7030,44,742,464,981,9326,6C
L200.100.1020010010157,55876,92,013,28,13,76,02,229,201.220,00210,001.290,00135,0093,2026,36,462,686,652,1523,0C
L200.100.1220010012157,55877,02,113,18,13,86,02,234,801.440,00247,001.530,00159,00111,0031,36,432,676,632,1427,3C
L200.100.1520010015157,55877,12,213,08,23,95,92,343,001.760,00299,001.860,00194,00137,0038,46,402,646,582,1233,7C
L200.150.1020015010157,56875,93,514,010,85,97,34,534,201.400,00680,001.710,00364,0099,6059,26,384,467,073,2626,9C
L200.150.1220015012157,56876,03,613,910,86,07,34,140,801.650,00803,002.030,00430,00119,0070,56,364,447,053,2532,0C
L200.150.1520015015157,56876,23,713,910,86,27,33,950,502.020,00979,002.480,00526,00147,0086,96,334,407,003,2339,6C
L200.150.1820015018157,56876,33,813,810,96,47,33,660,002.380,001.150,002.900,00618,00174,00103,06,294,376,963,2147,1C
A=çrea de la secci—n i
y
= . Radio de giro de la secci—n,
I
x
=Momento de inercia de la secci—n, respecto a X respecto a Y
I
y
=Momento de inercia de la secci—n, respecto a Y i
z
= . Radio de giro de la secci—n,
I
z
=Momento de inercia de la secci—n, respecto a z respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h i
h
= . Radio de giro de la secci—n,
W
x
=I
x
: (aÐc
x
). M—dulo resistente de la secci—n, respecto a X respecto a h
W
y
=I
y
: (bÐc
y
). M—dulo resistente de la secci—n, respecto a Yu=Per’metro
W
h
=I
h
: V¢. M—dulo resistente de la secci—n, respecto a h p=Peso por m
ix = . Radio de giro de la secci—n, respecto a X
c
y
c
x
v¢
v¢¢
r
1
r
w¢¢
w¢
x
y
v¢¢¢
z
h
y
x
b
a
I
x
A:
I:A
y
I
z
:A
I
h
:A
Tabla 2.A1.6.Perfiles LD
Dimensiones Posici—n del centro TŽrminos de secci—n Peso
Perfil
a b e rr
1
u c
x
c
y
w¢w¢¢V¢V¢¢V¢¢¢A I
x
I
y
I
z
I
h
W
x
W
y
i
x
i
y
i
z
i
h
p
mmmmmmmmmmmmcmcmcmcmcmcmcmcm
2
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cmcmcmcmkp/m
L40.25.440254 42,01271,30,62,61,91,01,30,62,46 3,89 1,16 4,350,701,470,621,260,691,330,5311,93C
L40.25.540255 42,01271,40,62,61,91,11,30,73,02 4,69 1,39 5,230,851,810,761,250,681,320,532,37C
L45.30.445304 42,01471,40,73,02,31,21,50,82,86 5,77 2,05 6,631,191,910,911,420,851,520,652,24C
L45.30.445305 42,01471,50,73,02,31,31,50,83,52 6,98 2,47 8,001,452,351,111,410,841,510,642,76C
L60.30.560305 63,01752,10,63,82,71,21,70,74,29 15,60 2,60 16,501,704,041,121,900,781,960,633,37C
L60.30.660306 63,01752,20,73,82,71,21,70,75,08 18,20 3,02 19,201,994,781,321,890,771,950,633,99C
L60.40.560405 63,01951,90,94,13,01,62,11,14,79 17,20 6,11 19,803,544,252,021,891,132,030,863,76C
L60.40.660406 63,01952,01,04,03,01,72,11,15,68 20,10 7,12 23,104,155,032,381,881,122,020,864,46C
L60.40.760407 63,01952,01,04,03,01,72,01,16,55 22,90 8,07 26,304,755,792,741,871,112,000,855,14C
L65.50.565505 63,02251,91,24,53,62,02,31,55,54 23,20 11,90 28,806,325,143,192,051,472,281,074,35C
L65.50.665506 63,02252,01,24,53,62,12,31,56,58 27,20 14,00 33,807,436,103,772,031,462,271,065,16C
L65.50.765507 63,02252,01,34,53,62,12,31,57,60 31,10 15,90 38,508,517,034,342,021,452,251,065,96C
L65.50.865508 63,02252,11,34,43,72,22,31,58,60 34,80 17,70 43,009,567,934,892,011,442,241,056,75C
L75.50.575505 73,52442,31,15,13,82,02,61,36,05 34,40 12,30 39,607,116,743,212,381,432,561,084,75C
L75.50.675506 73,52442,41,25,13,82,02,61,37,19 40,50 14,40 46,608,368,013,812,371,422,551,085,65C
L75.50.775507 73,52442,41,25,13,82,12,61,38,31 46,40 16,50 53,309,579,244,392,361,412,531,076,53C
L75.50.875508 73,52442,51,25,03,82,12,61,49,41 52,00 18,40 59,7010,8010,404,952,351,402,521,077,39C
L80.40.580405 73,52342,80,85,23,51,52,40,95,80 38,20 6,49 40,504,197,352,062,561,062,640,854,56C
L80.40.680406 73,52342,80,85,23,51,52,30,86,89 44,90 7,59 47,604,928,732,442,551,082,630,855,41C
L80.40.780407 73,52342,90,95,13,61,62,30,97,96 51,40 8,63 54,405,6410,102,812,541,042,610,846,25C
L80.40.880408 73,52342,90,95,13,61,62,31,09,01 57,60 9,61 60,906,3311,403,162,531,032,600,847,07C
L80.60.680606 84,02732,41,45,53,82,52,91,78,11 51,40 24,80 62,8013,409,295,492,521,752,781,296,37C
L80.60.780607 84,02732,51,55,53,82,52,91,79,38 59,00 28,40 72,0015,4010,706,342,511,742,771,287,36C
L80.60.880608 84,02732,51,55,53,82,52,91,810,60 66,30 31,80 80,8017,3012,207,162,501,732,761,278,34C
L100.50.6100506 94,52923,41,06,54,41,93,01,18,73 89,70 15,30 95,109,8513,803,853,211,323,301,066,85C
L100.50.7100507 94,52923,51,06,54,41,92,91,110,10103,00 17,40109,0011,3016,004,463,201,313,291,067,93C
L100.50.8100508 94,52923,51,16,44,42,02,91,111,40116,00 19,50123,0012,7018,105,043,181,313,281,058,99C
L100.50.101005010 94,52923,61,26,44,52,02,91,214,10141,00 23,40149,0015,4022,206,173,161,293,251,0511,10C
L100.65.7100657105,03213,21,56,84,92,63,41,711,20113,00 57,60128,0022,0016,607,533,171,833,391,408,77C
L100.65.8100658105,03213,21,56,84,92,63,41,712,70127,00 42,20144,0024,8018,908,543,161,833,371,409,94C
L100.65.101006510105,03213,31,66,75,02,73,41,715,60154,00 51,00175,0030,1023,2010,503,141,813,351,3912,30C
L100.75.8100758105,03413,11,86,95,43,13,62,113,50133,00 64,10163,0034,6019,3011,403,142,183,471,6010,60P
L100.75.101007510105,03413,11,96,95,43,23,62,216,60162,00 77,60197,0042,2023,8014,003,122,163,451,5913,00P
L100.75.121007512105,03413,22,06,85,53,33,62,219,70189,00 90,20230,0049,5028,0016,503,102,143,421,5915,40P
L120.80.8120808115,53913,81,88,26,03,24,22,115,50226,00 80,80260,0046,6027,6013,203,822,284,101,7312,20P
L120.80.101208010115,53913,91,98,16,03,34,22,119,10276,00 98,10317,0056,8034,1016,203,802,264,071,7215,00P
L120.80.121208012115,59314,02,08,16,03,44,22,222,70323,00114,00371,0066,6040,4019,103,772,244,041,7117,80P
L130.65.8130658115,53814,51,38,55,82,43,91,415,10263,00 44,80278,0028,9031,108,204,171,724,301,3811,80C
L130.65.101306510115,53814,61,48,45,82,53,81,518,60320,00 54,20339,0035,2038,4010,704,151,714,271,3714,60C
L130.65.121306512115,53814,71,58,35,92,63,81,622,10375,00 63,00397,0041,2045,4012,704,121,694,241,3717,30C
L150.75.9150759115,54415,21,59,86,62,94,51,719,60456,00 78,30484,0050,4046,9013,204,832,004,971,6015,4C
L150.75.101507510115,54415,31,69,76,62,94,41,721,60501,00 85,80532,0055,3051,8014,64,811,994,961,6017,0C
L150.75.121507512115,54415,41,69,76,62,94,41,825,70589,00 99,90624,0064,9061,4017,24,791,974,931,5920,2C
L150.75.151507515115,54415,51,89,66,93,14,41,931,60713,00120,00754,0078,8075,3021,04,751,944,881,5824,8C
L150.90.101509010126,04705,02,010,17,13,65,02,223,20533,00146,00591,0088,2053,3021,04,802,515,051,9518,2C
L150.90.121509012126,04705,02,110,17,13,75,02,327,50627,00171,00695,00104,0063,3024,84,772,495,021,9421,6C
L150.90.151509015126,04705,22,29,97,23,84,92,433,90761,00205,00841,00126,0077,7030,44,742,464,981,9326,6C
L200.100.1020010010157,55876,92,013,28,13,76,02,229,201.220,00210,001.290,00135,0093,2026,36,462,686,652,1523,0C
L200.100.1220010012157,55877,02,113,18,13,86,02,234,801.440,00247,001.530,00159,00111,0031,36,432,676,632,1427,3C
L200.100.1520010015157,55877,12,213,08,23,95,92,343,001.760,00299,001.860,00194,00137,0038,46,402,646,582,1233,7C
L200.150.1020015010157,56875,93,514,010,85,97,34,534,201.400,00680,001.710,00364,0099,6059,26,384,467,073,2626,9C
L200.150.1220015012157,56876,03,613,910,86,07,34,140,801.650,00803,002.030,00430,00119,0070,56,364,447,053,2532,0C
L200.150.1520015015157,56876,23,713,910,86,27,33,950,502.020,00979,002.480,00526,00147,0086,96,334,407,003,2339,6C
L200.150.1820015018157,56876,33,813,810,96,47,33,660,002.380,001.150,002.900,00618,00174,00103,06,294,376,963,2147,1C
A=çrea de la secci—n i
y
= . Radio de giro de la secci—n,
I
x
=Momento de inercia de la secci—n, respecto a X respecto a Y
I
y
=Momento de inercia de la secci—n, respecto a Y i
z
= . Radio de giro de la secci—n,
I
z
=Momento de inercia de la secci—n, respecto a z respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h i
h
= . Radio de giro de la secci—n,
W
x
=I
x
: (aÐc
x
). M—dulo resistente de la secci—n, respecto a X respecto a h
W
y
=I
y
: (bÐc
y
). M—dulo resistente de la secci—n, respecto a Yu=Per’metro
W
h
=I
h
: V¢. M—dulo resistente de la secci—n, respecto a h p=Peso por m
ix = . Radio de giro de la secci—n, respecto a X
c
y
c
x
v¢
v¢¢
r
1
r
w¢¢
w¢
x
y
v¢¢¢
z
h
y
x
b
a
I
x
A:
I:A
y
I
z
:A
I
h
:A
77 Anejos de la Parte 2
Tabla 2.A1.7.Perfiles T
Dimensiones
Posici—n
TŽrminos de secci—n AgujerosPeso
del centro
Perfil
b e=r r
1
r
2
u z A I
x
W
x
i
x
I
y
W
y
i
y
I
t
w a p
mm mm mm mm mm cm cm cm
4
cm
3
cm cm
4
cm
3
cm cm
4
mm mmkp/m
T405 40 5 2,51,0153 1,12 3,77 5,281,841,18 2,581,290,830,35021 6,42,96C
T506 50 6 3,01,5191 1,39 5,6612,103,361,46 6,062,421,030,75730 6,44,44C
T607 60 7 3,52,0229 1,66 7,9423,805,481,7312,204,071,241,45034 8,46,23C
T708 70 8 4,02,0268 1,94 10,6044,508,792,0522,106,321,442,5203811,08,32C
T809 80 9 4,52,0307 2,22 13,6073,7012,802,3337,009,251,654,1104511,010,70C
T10011 100 11 5,53,0383 2,74 20,90179,0024,602,9288,3017,702,059,3806013,016,40C
A=çrea de la secci—n W
y
=2I
y
:bM—dulo resistente de la secci—n,
I
x
=Momento de inercia de media secci—n, respecto al eje X respecto a Y.
W
x
=I
x
: (bÐz). M—dulo resistente de la secci—n, respectoi
y
= . Radio de giro, de la secc., respecto a Y
al eje X u=Per’metro de la secci—n
i
x
= . Radio de giro de la secci—n, respecto a X p=Peso por m
I
y
=Momento de inercia de la secci—n, respecto a Y I
t
=M—dulo de torsi—n de la secci—n
Tabla 2.A1.8.Redondos
Dimensiones TŽrminos de secci—n Peso
Producto
d u A
I
x
W
x
i
x
p
mm mm cm
2
cm
4
cm
3
cm kp/m
Æ6 6 18,8 0,283 0,006 0,021 0,150 0,222 P
Æ7 7 22,0 0,385 0,012 0,034 0,175 0,302 C
Æ8 8 25,1 0,503 0,020 0,050 0,200 0,395 P
Æ10 10 31,4 0,785 0,049 0,098 0,250 0,617 P
Æ12 12 37,7 1,130 0,102 0,170 0,300 0,888 P
Æ14 14 44,0 1,540 0,189 0,269 0,350 1,210 P
Æ16 16 50,3 2,010 0,322 0,402 0,400 1,580 P
Æ18 18 56,5 2,550 0,515 0,573 0,450 2,000 C
Æ20 20 62,8 3,140 0,785 0,785 0,500 2,470 P
Æ22 22 69,1 3,80 1,15 1,05 0,550 2,98 C
Æ25 25 78,5 4,91 1,92 1,53 0,625 3,85 P
Æ28 28 88,0 6,16 3,02 2,16 0,700 4,83 C
Æ30 30 94,2 7,07 3,98 2,65 0,750 5,55 C
Æ32 32 101,0 8,04 5,15 3,22 0,800 6,31 P
Æ36 36 113,0 10,20 8,24 4,58 0,900 7,99 C
Æ40 40 126,0 12,60 12,60 6,28 1,000 9,86 P
Æ45 45 141,0 15,90 20,20 8,95 1,120 12,50 P
Æ50 50 157,0 19,60 30,70 12,30 1,250 15,40 P
A=çrea de la secci—n
I
x
=Momento de inercia de la secci—n
W
x
=2I
x
: d. M—dulo resistente de la secci—n
i
x
= . Radio de giro de la secci—n
u=Per’metro de la secci—n
p=Peso por m
I
x
A:
I:A
y
I
x
A:
Tabla 2.A1.7.Perfiles T
Dimensiones
Posici—n
TŽrminos de secci—n AgujerosPeso
del centro
Perfil
b e=r r
1
r
2
u z A I
x
W
x
i
x
I
y
W
y
i
y
I
t
w a p
mm mm mm mm mm cm cm cm
4
cm
3
cm cm
4
cm
3
cm cm
4
mm mmkp/m
T405 40 5 2,51,0153 1,12 3,77 5,281,841,18 2,581,290,830,35021 6,42,96C
T506 50 6 3,01,5191 1,39 5,6612,103,361,46 6,062,421,030,75730 6,44,44C
T607 60 7 3,52,0229 1,66 7,9423,805,481,7312,204,071,241,45034 8,46,23C
T708 70 8 4,02,0268 1,94 10,6044,508,792,0522,106,321,442,5203811,08,32C
T809 80 9 4,52,0307 2,22 13,6073,7012,802,3337,009,251,654,1104511,010,70C
T10011 100 11 5,53,0383 2,74 20,90179,0024,602,9288,3017,702,059,3806013,016,40C
A=çrea de la secci—n W
y
=2I
y
:bM—dulo resistente de la secci—n,
I
x
=Momento de inercia de media secci—n, respecto al eje X respecto a Y.
W
x
=I
x
: (bÐz). M—dulo resistente de la secci—n, respectoi
y
= . Radio de giro, de la secc., respecto a Y
al eje X u=Per’metro de la secci—n
i
x
= . Radio de giro de la secci—n, respecto a X p=Peso por m
I
y
=Momento de inercia de la secci—n, respecto a Y I
t
=M—dulo de torsi—n de la secci—n
Tabla 2.A1.8.Redondos
Dimensiones TŽrminos de secci—n Peso
Producto
d u A
I
x
W
x
i
x
p
mm mm cm
2
cm
4
cm
3
cm kp/m
Æ6 6 18,8 0,283 0,006 0,021 0,150 0,222 P
Æ7 7 22,0 0,385 0,012 0,034 0,175 0,302 C
Æ8 8 25,1 0,503 0,020 0,050 0,200 0,395 P
Æ10 10 31,4 0,785 0,049 0,098 0,250 0,617 P
Æ12 12 37,7 1,130 0,102 0,170 0,300 0,888 P
Æ14 14 44,0 1,540 0,189 0,269 0,350 1,210 P
Æ16 16 50,3 2,010 0,322 0,402 0,400 1,580 P
Æ18 18 56,5 2,550 0,515 0,573 0,450 2,000 C
Æ20 20 62,8 3,140 0,785 0,785 0,500 2,470 P
Æ22 22 69,1 3,80 1,15 1,05 0,550 2,98 C
Æ25 25 78,5 4,91 1,92 1,53 0,625 3,85 P
Æ28 28 88,0 6,16 3,02 2,16 0,700 4,83 C
Æ30 30 94,2 7,07 3,98 2,65 0,750 5,55 C
Æ32 32 101,0 8,04 5,15 3,22 0,800 6,31 P
Æ36 36 113,0 10,20 8,24 4,58 0,900 7,99 C
Æ40 40 126,0 12,60 12,60 6,28 1,000 9,86 P
Æ45 45 141,0 15,90 20,20 8,95 1,120 12,50 P
Æ50 50 157,0 19,60 30,70 12,30 1,250 15,40 P
A=çrea de la secci—n
I
x
=Momento de inercia de la secci—n
W
x
=2I
x
: d. M—dulo resistente de la secci—n
i
x
= . Radio de giro de la secci—n
u=Per’metro de la secci—n
p=Peso por m
I
x
A:
I:A
y
I
x
A:
NBE EA-95.Estructuras de acero en edificaci—n 78
Tabla 2.A1.9.Cuadrados
Dimensiones TŽrminos de secci—n Peso
Productol
d u A
I
x
=I
x
W
x
W
y
i
x
p
mm mm cm
2
cm
4
cm
3
cm
3
cm kp/m
6 6 24 0,360 0,0108 0,0360 0,0255 0,175 0,283 P
7 7 28 0,490 0,0200 0,0572 0,0404 0,202 0,385 P
8 8 32 0,640 0,0341 0,0853 0,0603 0,230 0,502 P
10 10 40 1,000 0,0833 0,1670 0,1180 0,288 0,785 P
12 12 48 1,440 0,1730 0,2880 0,2040 0,347 1,130 P
14 14 56 1,960 0,3200 0,4570 0,3230 0,404 1,540 P
16 16 64 2,560 0,5460 0,6830 0,4830 0,463 2,010 P
18 18 72 3,240 0,8750 0,9720 0,6870 0,520 2,540 P
20 20 80 4,000 1,3300 1,3300 0,9430 0,577 3,140 P
22 22 88 4,84 1,95 1,77 1,25 0,635 3,80 C
25 25 100 6,25 3,26 2,60 1,84 0,722 4,91 P
28 28 112 7,84 5,12 3,66 2,59 0,808 6,15 P
30 30 120 9,00 6,75 4,50 3,18 0,866 7,07 C
32 32 128 10,20 8,74 5,46 3,86 0,926 8,04 P
36 36 144 13,00 14,00 7,78 5,50 1,040 10,20 C
40 40 160 16,00 21,30 10,60 7,54 1,150 12,60 P
45 45 180 20,30 34,20 15,10 10,70 1,300 15,90 C
50 50 200 25,00 52,10 20,90 14,70 1,440 19,60 P
A=çrea de la secci—n
I
x
=I
z
. Momento de inercia de la secci—n
W
x
=2I
x
: d. M—dulo resistente de la secci—n, respecto al eje X
W
z
= . M—dulo resistente de la secci—n, respecto al eje Z
i
x
=Radio de giro de la secci—n
u=Per’metro
p=Peso por m
2:I
x
d
Tabla 2.A1.9.Cuadrados
Dimensiones TŽrminos de secci—n Peso
Productol
d u A
I
x
=I
x
W
x
W
y
i
x
p
mm mm cm
2
cm
4
cm
3
cm
3
cm kp/m
6 6 24 0,360 0,0108 0,0360 0,0255 0,175 0,283 P
7 7 28 0,490 0,0200 0,0572 0,0404 0,202 0,385 P
8 8 32 0,640 0,0341 0,0853 0,0603 0,230 0,502 P
10 10 40 1,000 0,0833 0,1670 0,1180 0,288 0,785 P
12 12 48 1,440 0,1730 0,2880 0,2040 0,347 1,130 P
14 14 56 1,960 0,3200 0,4570 0,3230 0,404 1,540 P
16 16 64 2,560 0,5460 0,6830 0,4830 0,463 2,010 P
18 18 72 3,240 0,8750 0,9720 0,6870 0,520 2,540 P
20 20 80 4,000 1,3300 1,3300 0,9430 0,577 3,140 P
22 22 88 4,84 1,95 1,77 1,25 0,635 3,80 C
25 25 100 6,25 3,26 2,60 1,84 0,722 4,91 P
28 28 112 7,84 5,12 3,66 2,59 0,808 6,15 P
30 30 120 9,00 6,75 4,50 3,18 0,866 7,07 C
32 32 128 10,20 8,74 5,46 3,86 0,926 8,04 P
36 36 144 13,00 14,00 7,78 5,50 1,040 10,20 C
40 40 160 16,00 21,30 10,60 7,54 1,150 12,60 P
45 45 180 20,30 34,20 15,10 10,70 1,300 15,90 C
50 50 200 25,00 52,10 20,90 14,70 1,440 19,60 P
A=çrea de la secci—n
I
x
=I
z
. Momento de inercia de la secci—n
W
x
=2I
x
: d. M—dulo resistente de la secci—n, respecto al eje X
W
z
= . M—dulo resistente de la secci—n, respecto al eje Z
i
x
=Radio de giro de la secci—n
u=Per’metro
p=Peso por m
2:I
x
d
79 Anejos de la Parte 2
Tabla 2.A1.10.Rectangulares
bád A p bád A p bád A p bád A p bád A p
mmmm cm
2
kp/m mmmm cm
2
kp/m mmmm cm
2
kp/m mmmm cm
2
kp/m mmmm cm
2
kp/m
20,4 0,800,628C 45,125,40 4,24C 70,2014,0011,00P100,3030,0023,60C160,2540,0 31,4C
20,5 1,000,785C 45,156,75 5,30C 70,2517,5013,70P100,3535,0027,50C160,3048,0 37,7C
20,6 1,200,942C 45,209,00 7,07C 70,3021,0016,50C100,4040,0031,40C160,3556,0 44,0C
20,8 1,601,260C 45,2511,20 8,83C 70,3524,5019,20C110,4 4,40 3,45C160,4064,0 50,2C
20,102,001,570C 45,3013,5010,60C 70,4028,0022,00C110,5 5,50 4,32C180,8 14,4 11,3C
20,122,401,880C 45,3515,8012,40C 75,4 3,00 2,36C110,6 6,80 5,18C180,1018,0 14,1C
20,153,002,360C 45,4018,0014,10C 75,5 3,75 2,94C110,8 8,80 6,91C180,1221,6 17,0C
25,4 1,000,785C 50,4 2,00 1,57P 75,6 4,50 3,53C110,1011,00 8,64C180,1527,0 21,2C
25,5 1,250,981C 50,5 2,50 1,96P 75,8 6,00 4,71C110,1213,2010,40C180,2036,0 28,3C
25,6 1,501,180C 50,6 3,00 2,36P 75,107,50 5,89C110,1516,5013,00C180,2545,0 35,3C
25,8 2,001,570C 50,8 4,00 3,14P 75,129,00 7,07C110,2022,0017,30C180,3054,0 42,4C
25,102,501,960C 50,105,00 3,93P 75,1511,20 8,83C110,2527,5021,60C180,3563,0 49,5C
25,123,002,360C 50,126,00 4,71C 75,2015,0011,80C110,3033,0025,90C180,4072,0 56,5C
25,153,752,940C 50,157,50 5,89C 75,2518,8014,70C110,3538,5030,20C200,8 16,0 12,6C
25,205,003,930C 50,2010,00 7,85C 75,3022,5017,70C110,4044,0034,50C200,1020,0 15,7C
30,4 1,200,942P 50,2512,50 9,81C 75,3526,2020,60C120,4 4,80 3,77C200,1224,0 18,8C
30,5 1,501,180P 50,3015,0011,80C 75,4030,0023,60C120,5 6,00 4,71C200,1530,0 23,6C
30,6 1,801,410P 50,3517,5013,70C 80,4 3,20 2,51C120,6 7,20 5,65C200,2040,0 31,4C
30,8 2,401,880C 50,4020,0015,70C 80,5 4,00 3,14C120,8 9,60 7,54C200,2550,0 39,2C
30,103,002,360C 55,4 2,20 1,73C 80,6 4,80 3,77P120,1012,00 9,42P200,3060,0 47,1C
30,123,602,830C 55,5 2,75 2,16C 80,8 6,40 5,02P120,1214,4011,30P200,3570,0 55,0C
30,154,503,530C 55,6 3,30 2,59C 80,108,00 6,28P120,1518,8014,10P200,4080,0 62,8C
30,206,004,710C 55,8 4,40 3,45C 80,129,60 7,54P120,2024,0018,80P250,8 20,0 15,7C
30,257,505,890C 55,105,50 4,32C 80,1512,00 9,42P120,2530,0023,60P250,1025,0 19,6C
35,4 1,401,100C 55,126,60 5,18C 80,2016,0012,60P120,3036,0028,50C250,1230,0 23,6C
35,5 1,751,370C 55,158,25 6,48C 80,2520,0015,70P120,3542,0033,00C250,1537,5 29,4C
35,6 2,101,650C 55,2011,00 8,64C 80,3024,0018,80C120,4048,0037,70C250,2050,0 39,2C
35,8 2,802,200C 55,2513,8010,80C 80,3528,0022,00C140,811,2 8,79C250,2562,5 49,1C
35,103,502,750C 55,3016,5013,00C 80,4032,0025,10C140,1014,0 11,00C250,3075,0 58,9C
35,124,203,300C 55,3519,3015,10C 90,4 3,60 2,85C140,1216,8 13,20P250,3587,5 68,7C
35,155,254,120C 55,4022,0017,30C 90,5 4,50 3,53C140,1521,0 16,50P250,40100,0 78,5C
35,207,005,500C 60,4 2,40 1,88C 90,6 5,40 4,24C140,2028,0 22,00P300,8 24,0 18,8C
35,258,756,870C 60,5 3,00 2,36P 90,8 7,20 5,85C140,2535,0 27,50P300,1030,0 23,6C
35,3010,508,240C 60,6 3,60 2,83P 90,109,00 7,07C140,3042,0 33,00C300,1236,0 28,3C
40,4 1,601,26P 60,8 4,80 3,77P 90,1210,80 8,48C140,3549,0 38,50C300,1545,0 35,3C
40,5 2,001,57P 60,106,00 4,71P 90,1513,5010,60C140,4056,0 44,00C300,2060,0 47,1C
40,6 2,401,88P 60,127,20 5,65P 90,2018,0012,10C150,812,0 9,42C300,2575,0 58,9C
40,8 3,202,51P 60,159,00 7,07P 90,2522,5017,70C150,1015,0 11,80C300,3090,0 70,6C
40,104,003,14C 60,2012,00 9,42P 90,3027,0021,20C150,1218,0 14,10C300,35105,0 82,4C
40,124,803,77C 60,2515,0011,80P 90,3531,5024,70C150,1522,5 17,70C300,40120,0 94,2C
40,156,004,71C 60,3018,0014,10C 90,4036,0028,30C150,2030,0 23,60C400,8 32,0 25,1C
40,208,006,28C 60,3521,0016,50C100,4 4,00 3,14C150,2537,5 29,40C400,1040,0 31,4C
40,2510,007,85C 60,4024,0018,80C100,5 5,00 3,93C150,3045,0 35,30C400,1248,0 37,7C
40,3012,009,42C 70,4 2,80 2,20C100,6 6,00 4,71C150,3552,5 41,20C400,1560,0 47,1C
40,3514,0011,00C 70,5 3,50 2,75P100,8 8,00 6,23P150,4060,0 47,10C400,2080,0 62,8C
45,4 1,801,41C 70,6 4,20 3,30P100,1010,00 7,85P160,812,8 10,0C400,25100,0 78,5C
45,5 2,251,77C 70,8 5,60 4,40P100,1212,00 9,42P160,1016,0 12,6C400,30120,0 94,2C
45,6 2,702,12C 70,107,00 5,50P100,1515,0011,80P160,1219,2 15,1C400,35140,0110,0C
45,8 3,602,83C 70,128,40 6,59P100,2020,0015,70P160,1524,0 18,8C400,40160,0126,0C
45,104,503,53C 70,1510,50 8,24P100,2525,0019,60P160,2032,0 25,1C
A=çrea de la secci—n
p=Peso por m
Tabla 2.A1.10.Rectangulares
bád A p bád A p bád A p bád A p bád A p
mmmm cm
2
kp/m mmmm cm
2
kp/m mmmm cm
2
kp/m mmmm cm
2
kp/m mmmm cm
2
kp/m
20,4 0,800,628C 45,125,40 4,24C 70,2014,0011,00P100,3030,0023,60C160,2540,0 31,4C
20,5 1,000,785C 45,156,75 5,30C 70,2517,5013,70P100,3535,0027,50C160,3048,0 37,7C
20,6 1,200,942C 45,209,00 7,07C 70,3021,0016,50C100,4040,0031,40C160,3556,0 44,0C
20,8 1,601,260C 45,2511,20 8,83C 70,3524,5019,20C110,4 4,40 3,45C160,4064,0 50,2C
20,102,001,570C 45,3013,5010,60C 70,4028,0022,00C110,5 5,50 4,32C180,8 14,4 11,3C
20,122,401,880C 45,3515,8012,40C 75,4 3,00 2,36C110,6 6,80 5,18C180,1018,0 14,1C
20,153,002,360C 45,4018,0014,10C 75,5 3,75 2,94C110,8 8,80 6,91C180,1221,6 17,0C
25,4 1,000,785C 50,4 2,00 1,57P 75,6 4,50 3,53C110,1011,00 8,64C180,1527,0 21,2C
25,5 1,250,981C 50,5 2,50 1,96P 75,8 6,00 4,71C110,1213,2010,40C180,2036,0 28,3C
25,6 1,501,180C 50,6 3,00 2,36P 75,107,50 5,89C110,1516,5013,00C180,2545,0 35,3C
25,8 2,001,570C 50,8 4,00 3,14P 75,129,00 7,07C110,2022,0017,30C180,3054,0 42,4C
25,102,501,960C 50,105,00 3,93P 75,1511,20 8,83C110,2527,5021,60C180,3563,0 49,5C
25,123,002,360C 50,126,00 4,71C 75,2015,0011,80C110,3033,0025,90C180,4072,0 56,5C
25,153,752,940C 50,157,50 5,89C 75,2518,8014,70C110,3538,5030,20C200,8 16,0 12,6C
25,205,003,930C 50,2010,00 7,85C 75,3022,5017,70C110,4044,0034,50C200,1020,0 15,7C
30,4 1,200,942P 50,2512,50 9,81C 75,3526,2020,60C120,4 4,80 3,77C200,1224,0 18,8C
30,5 1,501,180P 50,3015,0011,80C 75,4030,0023,60C120,5 6,00 4,71C200,1530,0 23,6C
30,6 1,801,410P 50,3517,5013,70C 80,4 3,20 2,51C120,6 7,20 5,65C200,2040,0 31,4C
30,8 2,401,880C 50,4020,0015,70C 80,5 4,00 3,14C120,8 9,60 7,54C200,2550,0 39,2C
30,103,002,360C 55,4 2,20 1,73C 80,6 4,80 3,77P120,1012,00 9,42P200,3060,0 47,1C
30,123,602,830C 55,5 2,75 2,16C 80,8 6,40 5,02P120,1214,4011,30P200,3570,0 55,0C
30,154,503,530C 55,6 3,30 2,59C 80,108,00 6,28P120,1518,8014,10P200,4080,0 62,8C
30,206,004,710C 55,8 4,40 3,45C 80,129,60 7,54P120,2024,0018,80P250,8 20,0 15,7C
30,257,505,890C 55,105,50 4,32C 80,1512,00 9,42P120,2530,0023,60P250,1025,0 19,6C
35,4 1,401,100C 55,126,60 5,18C 80,2016,0012,60P120,3036,0028,50C250,1230,0 23,6C
35,5 1,751,370C 55,158,25 6,48C 80,2520,0015,70P120,3542,0033,00C250,1537,5 29,4C
35,6 2,101,650C 55,2011,00 8,64C 80,3024,0018,80C120,4048,0037,70C250,2050,0 39,2C
35,8 2,802,200C 55,2513,8010,80C 80,3528,0022,00C140,811,2 8,79C250,2562,5 49,1C
35,103,502,750C 55,3016,5013,00C 80,4032,0025,10C140,1014,0 11,00C250,3075,0 58,9C
35,124,203,300C 55,3519,3015,10C 90,4 3,60 2,85C140,1216,8 13,20P250,3587,5 68,7C
35,155,254,120C 55,4022,0017,30C 90,5 4,50 3,53C140,1521,0 16,50P250,40100,0 78,5C
35,207,005,500C 60,4 2,40 1,88C 90,6 5,40 4,24C140,2028,0 22,00P300,8 24,0 18,8C
35,258,756,870C 60,5 3,00 2,36P 90,8 7,20 5,85C140,2535,0 27,50P300,1030,0 23,6C
35,3010,508,240C 60,6 3,60 2,83P 90,109,00 7,07C140,3042,0 33,00C300,1236,0 28,3C
40,4 1,601,26P 60,8 4,80 3,77P 90,1210,80 8,48C140,3549,0 38,50C300,1545,0 35,3C
40,5 2,001,57P 60,106,00 4,71P 90,1513,5010,60C140,4056,0 44,00C300,2060,0 47,1C
40,6 2,401,88P 60,127,20 5,65P 90,2018,0012,10C150,812,0 9,42C300,2575,0 58,9C
40,8 3,202,51P 60,159,00 7,07P 90,2522,5017,70C150,1015,0 11,80C300,3090,0 70,6C
40,104,003,14C 60,2012,00 9,42P 90,3027,0021,20C150,1218,0 14,10C300,35105,0 82,4C
40,124,803,77C 60,2515,0011,80P 90,3531,5024,70C150,1522,5 17,70C300,40120,0 94,2C
40,156,004,71C 60,3018,0014,10C 90,4036,0028,30C150,2030,0 23,60C400,8 32,0 25,1C
40,208,006,28C 60,3521,0016,50C100,4 4,00 3,14C150,2537,5 29,40C400,1040,0 31,4C
40,2510,007,85C 60,4024,0018,80C100,5 5,00 3,93C150,3045,0 35,30C400,1248,0 37,7C
40,3012,009,42C 70,4 2,80 2,20C100,6 6,00 4,71C150,3552,5 41,20C400,1560,0 47,1C
40,3514,0011,00C 70,5 3,50 2,75P100,8 8,00 6,23P150,4060,0 47,10C400,2080,0 62,8C
45,4 1,801,41C 70,6 4,20 3,30P100,1010,00 7,85P160,812,8 10,0C400,25100,0 78,5C
45,5 2,251,77C 70,8 5,60 4,40P100,1212,00 9,42P160,1016,0 12,6C400,30120,0 94,2C
45,6 2,702,12C 70,107,00 5,50P100,1515,0011,80P160,1219,2 15,1C400,35140,0110,0C
45,8 3,602,83C 70,128,40 6,59P100,2020,0015,70P160,1524,0 18,8C400,40160,0126,0C
45,104,503,53C 70,1510,50 8,24P100,2525,0019,60P160,2032,0 25,1C
A=çrea de la secci—n
p=Peso por m
Anejo 2.A2.Perfiles huecos
Perfiles huecos utilizados
En las tablas de este Anejo figuran, a ttulo in-
formativo, datos sobre perfileshuecos conforma-
dos en fro que se utilizan usualmente.
Perfil hueco redondo
Tienen seccin anular de dimetro exterior dy
espesor
eno mayor que, 0,1dni menor que
0,025
d. Las dimensiones y los trminos de sec-
cin se detallan en la tabla 2.A2.1.
Perfil hueco cuadrado
Tiene seccin cuadrada hueca, de lado ay espe-
sor
eno mayor que 0,1ani menor que 0,025acon
aristas redondeadas. Las dimensiones y los trmi-
nos de seccin se detallan en la tabla 2.A2.2.
Perfil hueco rectangular
Tiene seccin rectangular hueca de lados a>by
espesor
e, no mayor que 0,1bni menor que 0,025a
con aristas redondeadas. Las dimensiones y los
trminos de seccin se detallan en la tabla 2.A2.3.
Perfiles huecos utilizados
En las tablas de este Anejo figuran, a ttulo in-
formativo, datos sobre perfileshuecos conforma-
dos en fro que se utilizan usualmente.
Perfil hueco redondo
Tienen seccin anular de dimetro exterior dy
espesor
eno mayor que, 0,1dni menor que
0,025
d. Las dimensiones y los trminos de sec-
cin se detallan en la tabla 2.A2.1.
Perfil hueco cuadrado
Tiene seccin cuadrada hueca, de lado ay espe-
sor
eno mayor que 0,1ani menor que 0,025acon
aristas redondeadas. Las dimensiones y los trmi-
nos de seccin se detallan en la tabla 2.A2.2.
Perfil hueco rectangular
Tiene seccin rectangular hueca de lados a>by
espesor
e, no mayor que 0,1bni menor que 0,025a
con aristas redondeadas. Las dimensiones y los
trminos de seccin se detallan en la tabla 2.A2.3.
81 Anejos de la Parte 2
Tabla 2.A2.1.Perfiles huecos redondos
Dimensiones TŽrminos de secci—n Peso
Perfil
d e u A S
I W i I
t
p
mm mm mm cm
2
cm
3
cm
4
cm
3
cm cm
4
kp/m
Æ40.2 40 2 126 2,39 1,44 4,33 2,16 1,35 8,66 1,88P
Æ40.3 40 3 126 3,49 2,05 6,01 3,00 1,31 12,00 2,74P
Æ40.4 40 4 126 4,52 2,60 7,42 3,71 1,28 14,80 3,55C
Æ45.2 45 2 141 2,70 1,85 6,26 2,78 1,52 12,50 2,12P
Æ45.3 45 3 141 3,96 2,65 8,77 3,90 1,49 17,50 3,11P
Æ45.4 45 4 141 5,15 3,37 10,90 4,84 1,45 21,80 4,04C
Æ50.2 50 2 157 3,02 2,30 8,70 3,48 1,69 17,40 2,37P
Æ50.3 50 3 157 4,43 3,31 12,20 4,91 1,66 24,50 3,47P
Æ50.4 50 4 157 5,78 4,23 15,40 6,16 1,63 30,80 4,53P
Æ55.2 55 2 173 3,33 2,81 11,70 4,25 1,87 23,40 2,61C
Æ55.3 55 3 173 4,90 4,06 16,60 6,04 1,84 33,20 3,85C
Æ55.4 55 4 173 6,41 5,21 21,00 7,64 2,01 42,00 5,03C
Æ60.2 60 2 188 3,64 3,36 15,30 5,11 2,05 30,60 2,86P
Æ60.3 60 3 188 5,37 4,87 21,80 7,29 2,01 43,70 4,21P
Æ60.4 60 4 188 7,04 6,27 27,70 9,24 1,98 55,40 5,52P
Æ65.2 65 2 204 3,96 3,97 19,70 6,06 2,23 39,40 3,11C
Æ65.3 65 3 204 5,84 5,78 28,10 8,65 2,19 56,20 4,58C
Æ65.4 65 4 204 7,67 7,46 35,80 11,60 2,16 71,60 6,02C
Æ70.2 70 2 220 4,27 4,62 24,70 7,05 2,41 49,40 3,35P
Æ70.3 70 3 220 6,31 6,73 35,50 10,10 2,37 71,00 4,95P
Æ70.4 70 4 220 8,29 8,72 45,30 12,90 2,34 90,60 6,51C
Æ75.2 75 2 236 4,58 5,33 30,50 8,15 2,58 61,10 3,60P
Æ75.3 75 3 236 6,78 7,78 44,00 11,70 2,54 88,00 5,32P
Æ75.4 75 4 236 8,92 10,10 56,30 15,00 2,51 113,00 7,00P
Æ80.2 80 2 251 4,90 6,09 37,30 9,33 2,76 74,60 3,85C
Æ80.3 80 3 251 7,26 8,90 53,90 13,50 2,72 108,00 5,70C
Æ80.4 80 4 251 9,55 11,60 69,10 17,30 2,69 138,00 7,50C
Æ90.3 90 3 283 8,19 11,40 77,60 17,30 3,07 155,00 6,43P
Æ90.4 90 4 283 10,80 14,80 100,00 22,30 3,04 200,00 8,48P
Æ90.5 90 5 283 13,40 18,10 121,00 26,90 3,01 242,0010,50P
Æ100.3 100 3 314 9,14 14,10 108,00 21,50 3,43 215,00 7,17P
Æ100.4 100 4 314 12,10 18,40 139,00 27,80 3,39 278,00 9,47P
Æ100.5 100 5 314 14,90 22,60 169,00 33,80 3,36 238,0011,70P
Æ100.6 100 6 314 17,70 26,50 196,00 39,30 3,33 393,0013,90C
Æ125.4 125 4 393 15,20 29,30 279,00 44,60 4,28 557,0011,90C
Æ125.5 125 5 393 18,80 36,00 340,00 54,40 4,24 680,0014,80C
Æ125.6 125 6 393 22,40 42,50 398,00 63,70 4,21 796,0017,60C
Æ155.5 155 5 487 23,60 56,20 663,00 85,50 5,30 1.330,0018,50C
Æ155.6 155 6 487 28,10 66,60 781,00 101,00 5,27 1.560,0022,10C
Æ155.8 155 8 487 36,90 86,50 1.000,00 129,00 5,21 2.000,0029,00C
Æ175.5 175 5 550 26,70 72,30 966,00 110,00 6,01 1.330,0021,00C
Æ175.6 175 6 550 31,90 85,70 1.140,00 130,00 5,98 2.280,0025,00C
Æ175.8 175 8 550 42,00 112,00 1.470,00 168,00 5,92 2.940,0033,00C
Æ200.5 200 5 628 30,60 95,10 1.460,00 146,00 6,91 2.920,0024,00C
Æ200.6 200 6 628 36,60 113,00 1.720,00 172,00 6,86 3.440,0028,70C
Æ200.8 200 8 628 48,30 148,00 2.230,00 223,00 6,79 4.460,0037,90C
u=Per’metro
A=çrea de la secci—n
S=Momento est‡tico de media secci—n, respecto a un eje baricŽntrico
I=Momento de inercia de la secci—n, respecto a un eje baricŽntrico
W=2
I:d. M—dulo resistente de la secci—n, respecto a un eje baricŽntrico
i= . Radio de giro de la secci—n, respecto a un eje baricŽntrico
I
t
=M—dulo de torsi—n de la secci—n
IA:
Tabla 2.A2.1.Perfiles huecos redondos
Dimensiones TŽrminos de secci—n Peso
Perfil
d e u A S
I W i I
t
p
mm mm mm cm
2
cm
3
cm
4
cm
3
cm cm
4
kp/m
Æ40.2 40 2 126 2,39 1,44 4,33 2,16 1,35 8,66 1,88P
Æ40.3 40 3 126 3,49 2,05 6,01 3,00 1,31 12,00 2,74P
Æ40.4 40 4 126 4,52 2,60 7,42 3,71 1,28 14,80 3,55C
Æ45.2 45 2 141 2,70 1,85 6,26 2,78 1,52 12,50 2,12P
Æ45.3 45 3 141 3,96 2,65 8,77 3,90 1,49 17,50 3,11P
Æ45.4 45 4 141 5,15 3,37 10,90 4,84 1,45 21,80 4,04C
Æ50.2 50 2 157 3,02 2,30 8,70 3,48 1,69 17,40 2,37P
Æ50.3 50 3 157 4,43 3,31 12,20 4,91 1,66 24,50 3,47P
Æ50.4 50 4 157 5,78 4,23 15,40 6,16 1,63 30,80 4,53P
Æ55.2 55 2 173 3,33 2,81 11,70 4,25 1,87 23,40 2,61C
Æ55.3 55 3 173 4,90 4,06 16,60 6,04 1,84 33,20 3,85C
Æ55.4 55 4 173 6,41 5,21 21,00 7,64 2,01 42,00 5,03C
Æ60.2 60 2 188 3,64 3,36 15,30 5,11 2,05 30,60 2,86P
Æ60.3 60 3 188 5,37 4,87 21,80 7,29 2,01 43,70 4,21P
Æ60.4 60 4 188 7,04 6,27 27,70 9,24 1,98 55,40 5,52P
Æ65.2 65 2 204 3,96 3,97 19,70 6,06 2,23 39,40 3,11C
Æ65.3 65 3 204 5,84 5,78 28,10 8,65 2,19 56,20 4,58C
Æ65.4 65 4 204 7,67 7,46 35,80 11,60 2,16 71,60 6,02C
Æ70.2 70 2 220 4,27 4,62 24,70 7,05 2,41 49,40 3,35P
Æ70.3 70 3 220 6,31 6,73 35,50 10,10 2,37 71,00 4,95P
Æ70.4 70 4 220 8,29 8,72 45,30 12,90 2,34 90,60 6,51C
Æ75.2 75 2 236 4,58 5,33 30,50 8,15 2,58 61,10 3,60P
Æ75.3 75 3 236 6,78 7,78 44,00 11,70 2,54 88,00 5,32P
Æ75.4 75 4 236 8,92 10,10 56,30 15,00 2,51 113,00 7,00P
Æ80.2 80 2 251 4,90 6,09 37,30 9,33 2,76 74,60 3,85C
Æ80.3 80 3 251 7,26 8,90 53,90 13,50 2,72 108,00 5,70C
Æ80.4 80 4 251 9,55 11,60 69,10 17,30 2,69 138,00 7,50C
Æ90.3 90 3 283 8,19 11,40 77,60 17,30 3,07 155,00 6,43P
Æ90.4 90 4 283 10,80 14,80 100,00 22,30 3,04 200,00 8,48P
Æ90.5 90 5 283 13,40 18,10 121,00 26,90 3,01 242,0010,50P
Æ100.3 100 3 314 9,14 14,10 108,00 21,50 3,43 215,00 7,17P
Æ100.4 100 4 314 12,10 18,40 139,00 27,80 3,39 278,00 9,47P
Æ100.5 100 5 314 14,90 22,60 169,00 33,80 3,36 238,0011,70P
Æ100.6 100 6 314 17,70 26,50 196,00 39,30 3,33 393,0013,90C
Æ125.4 125 4 393 15,20 29,30 279,00 44,60 4,28 557,0011,90C
Æ125.5 125 5 393 18,80 36,00 340,00 54,40 4,24 680,0014,80C
Æ125.6 125 6 393 22,40 42,50 398,00 63,70 4,21 796,0017,60C
Æ155.5 155 5 487 23,60 56,20 663,00 85,50 5,30 1.330,0018,50C
Æ155.6 155 6 487 28,10 66,60 781,00 101,00 5,27 1.560,0022,10C
Æ155.8 155 8 487 36,90 86,50 1.000,00 129,00 5,21 2.000,0029,00C
Æ175.5 175 5 550 26,70 72,30 966,00 110,00 6,01 1.330,0021,00C
Æ175.6 175 6 550 31,90 85,70 1.140,00 130,00 5,98 2.280,0025,00C
Æ175.8 175 8 550 42,00 112,00 1.470,00 168,00 5,92 2.940,0033,00C
Æ200.5 200 5 628 30,60 95,10 1.460,00 146,00 6,91 2.920,0024,00C
Æ200.6 200 6 628 36,60 113,00 1.720,00 172,00 6,86 3.440,0028,70C
Æ200.8 200 8 628 48,30 148,00 2.230,00 223,00 6,79 4.460,0037,90C
u=Per’metro
A=çrea de la secci—n
S=Momento est‡tico de media secci—n, respecto a un eje baricŽntrico
I=Momento de inercia de la secci—n, respecto a un eje baricŽntrico
W=2
I:d. M—dulo resistente de la secci—n, respecto a un eje baricŽntrico
i= . Radio de giro de la secci—n, respecto a un eje baricŽntrico
I
t
=M—dulo de torsi—n de la secci—n
IA:
NBE EA-95.Estructuras de acero en edificaci—n 82
Tabla 2.A2.2.Perfiles huecos cuadrados
Dimensiones TŽrminos de secci—n Peso
Perfil
a e r u A S
I W i I
t
p
mm mm mm mm cm
2
cm
3
cm
4
cm
3
cm cm
4
kp/m
'40.2 40 2 5 151 2,90 2,04 6,60 3,40 1,53 11,3 2,28P
'40.3 40 3 8 147 4,13 2,80 9,01 4,51 1,48 15,6 3,24P
'40.4 40 4 10 143 5,21 3,40 10,50 5,26 1,42 18,9 4,09P
'45.2 45 2 5 171 3,30 2,63 9,94 4,42 1,74 16,3 2,59C
'45.3 45 3 8 167 4,73 3,65 13,40 5,95 1,68 22,9 3,71C
'45.4 45 4 10 163 6,01 4,49 15,90 7,07 1,63 28,2 4,72C
'50.2 50 2 5 191 3,70 3,30 13,90 5,57 1,94 22,7 2,91P
'50.3 50 3 8 187 5,33 4,62 19,00 7,59 1,89 32,0 4,18P
'50.4 50 4 10 183 5,81 5,73 22,90 9,15 1,83 39,9 5,35P
'55.2 55 2 5 211 4,10 4,04 18,90 6,86 2,14 30,5 3,22C
'55.3 55 3 8 207 5,93 5,70 25,90 9,43 2,09 43,4 4,66C
'55.4 55 4 10 203 7,61 7,12 31,60 11,50 2,04 54,5 5,97C
'60.2 60 2 5 231 4,50 4,86 24,80 8,28 2,35 39,9 3,53P
'60.3 60 3 8 227 6,53 6,89 34,40 11,50 2,30 57,1 5,13P
'60.4 60 4 10 223 8,41 8,66 42,30 14,10 2,24 72,2 6,60P
'60.5 60 5 13 219 10,10 10,20 48,50 16,20 2,19 85,2 7,96C
'70.2 70 2 5 271 5,30 6,71 40,30 11,50 2,76 64,1 4,16P
'70.3 70 3 8 267 7,73 9,60 56,60 16,20 2,71 92,6 6,07P
'70.4 70 4 10 263 10,00 12,20 70,40 20,10 2,65 118,0 7,86P
'70.5 70 5 13 259 12,10 14,50 82,00 23,40 2,60 141,0 9,53P
'80.3 80 3 8 307 8,93 12,80 86,60 21,70 3,11 140,0 7,01P
'80.4 80 4 10 303 11,60 16,30 108,80 27,20 3,06 180,0 9,11P
'80.5 80 5 13 299 14,10 19,50 128,00 32,00 3,01 217,0 11,10P
'80.6 80 6 15 294 16,50 22,40 144,00 36,00 2,95 250,0 13,00C
'90.3 90 3 8 347 10,10 16,40 126,00 37,90 3,52 202,0 7,95P
'90.4 90 4 10 343 13,20 21,10 159,00 35,40 3,47 281,0 10,40P
'90.5 90 5 13 339 16,10 25,30 189,00 41,90 3,42 316,0 12,70P
'90.6 90 6 15 334 18,90 29,20 214,00 47,60 3,36 366,0 14,90P
'100.3 100 3 8 387 11,30 20,10 175,00 35,00 3,93 279,0 8,89P
'100.4 100 4 10 383 14,80 26,40 223,00 44,60 3,88 363,0 11,60P
'100.5 100 5 13 379 18,10 31,90 266,00 53,10 3,83 440,0 14,20P
'100.6 100 6 15 374 21,30 37,00 304,00 60,70 3,77 513,0 16,70P
'120.4 120 4 10 463 18,00 38,90 397,00 66,20 4,70 638,0 14,10P
'120.5 120 5 13 459 22,10 47,20 478,00 79,60 4,64 780,0 17,40P
'120.6 120 6 15 454 26,10 55,10 551,00 91,80 4,59 913,0 20,50C
'140.5 140 5 13 539 26,10 65,60 780,00111,00 5,46 260,0 20,50P
'140.6 140 6 15 534 30,90 76,80 905,00129,00 5,41 480,0 24,30P
'140.8 140 8 20 526 40,00 97,501.130,00161,00 5,30 890,0 31,40P
'160.5 160 5 13 619 30,10 86,901.190,00149,00 6,28 1.901,023,70P
'160.6 160 6 15 614 35,70 102,001.390,00173,00 6,23 2.240,028,00P
'160.8 160 8 20 609 46,40 131,001.740,00218,00 6,12 2.890,036,50P
'170.5 170 5 13 659 32,10 98,701.440,00169,00 6,69 2.290,025,20C
'170.6 170 6 15 654 38,10 116,001.680,00198,00 6,64 2.710,029,90C
'170.8 170 8 20 646 49,60 149,002.120,00249,00 6,53 3.410,039,00P
r=Radio exterior de redondeo
u =Per’metro
A =çrea de la secci—n
S =Momento est‡tico de media secci—n, respecto al eje X o Y
I =Momento de inercia de la secci—n, respecto al eje X o Y
W =2I:d. M—dulo resistente de la secci—n, respecto al eje X o Y
i = . Radio de giro de la secci—n, respecto al eje X o Y
It =M—dulo de torsi—n de la secci—n
IA:
Tabla 2.A2.2.Perfiles huecos cuadrados
Dimensiones TŽrminos de secci—n Peso
Perfil
a e r u A S
I W i I
t
p
mm mm mm mm cm
2
cm
3
cm
4
cm
3
cm cm
4
kp/m
'40.2 40 2 5 151 2,90 2,04 6,60 3,40 1,53 11,3 2,28P
'40.3 40 3 8 147 4,13 2,80 9,01 4,51 1,48 15,6 3,24P
'40.4 40 4 10 143 5,21 3,40 10,50 5,26 1,42 18,9 4,09P
'45.2 45 2 5 171 3,30 2,63 9,94 4,42 1,74 16,3 2,59C
'45.3 45 3 8 167 4,73 3,65 13,40 5,95 1,68 22,9 3,71C
'45.4 45 4 10 163 6,01 4,49 15,90 7,07 1,63 28,2 4,72C
'50.2 50 2 5 191 3,70 3,30 13,90 5,57 1,94 22,7 2,91P
'50.3 50 3 8 187 5,33 4,62 19,00 7,59 1,89 32,0 4,18P
'50.4 50 4 10 183 5,81 5,73 22,90 9,15 1,83 39,9 5,35P
'55.2 55 2 5 211 4,10 4,04 18,90 6,86 2,14 30,5 3,22C
'55.3 55 3 8 207 5,93 5,70 25,90 9,43 2,09 43,4 4,66C
'55.4 55 4 10 203 7,61 7,12 31,60 11,50 2,04 54,5 5,97C
'60.2 60 2 5 231 4,50 4,86 24,80 8,28 2,35 39,9 3,53P
'60.3 60 3 8 227 6,53 6,89 34,40 11,50 2,30 57,1 5,13P
'60.4 60 4 10 223 8,41 8,66 42,30 14,10 2,24 72,2 6,60P
'60.5 60 5 13 219 10,10 10,20 48,50 16,20 2,19 85,2 7,96C
'70.2 70 2 5 271 5,30 6,71 40,30 11,50 2,76 64,1 4,16P
'70.3 70 3 8 267 7,73 9,60 56,60 16,20 2,71 92,6 6,07P
'70.4 70 4 10 263 10,00 12,20 70,40 20,10 2,65 118,0 7,86P
'70.5 70 5 13 259 12,10 14,50 82,00 23,40 2,60 141,0 9,53P
'80.3 80 3 8 307 8,93 12,80 86,60 21,70 3,11 140,0 7,01P
'80.4 80 4 10 303 11,60 16,30 108,80 27,20 3,06 180,0 9,11P
'80.5 80 5 13 299 14,10 19,50 128,00 32,00 3,01 217,0 11,10P
'80.6 80 6 15 294 16,50 22,40 144,00 36,00 2,95 250,0 13,00C
'90.3 90 3 8 347 10,10 16,40 126,00 37,90 3,52 202,0 7,95P
'90.4 90 4 10 343 13,20 21,10 159,00 35,40 3,47 281,0 10,40P
'90.5 90 5 13 339 16,10 25,30 189,00 41,90 3,42 316,0 12,70P
'90.6 90 6 15 334 18,90 29,20 214,00 47,60 3,36 366,0 14,90P
'100.3 100 3 8 387 11,30 20,10 175,00 35,00 3,93 279,0 8,89P
'100.4 100 4 10 383 14,80 26,40 223,00 44,60 3,88 363,0 11,60P
'100.5 100 5 13 379 18,10 31,90 266,00 53,10 3,83 440,0 14,20P
'100.6 100 6 15 374 21,30 37,00 304,00 60,70 3,77 513,0 16,70P
'120.4 120 4 10 463 18,00 38,90 397,00 66,20 4,70 638,0 14,10P
'120.5 120 5 13 459 22,10 47,20 478,00 79,60 4,64 780,0 17,40P
'120.6 120 6 15 454 26,10 55,10 551,00 91,80 4,59 913,0 20,50C
'140.5 140 5 13 539 26,10 65,60 780,00111,00 5,46 260,0 20,50P
'140.6 140 6 15 534 30,90 76,80 905,00129,00 5,41 480,0 24,30P
'140.8 140 8 20 526 40,00 97,501.130,00161,00 5,30 890,0 31,40P
'160.5 160 5 13 619 30,10 86,901.190,00149,00 6,28 1.901,023,70P
'160.6 160 6 15 614 35,70 102,001.390,00173,00 6,23 2.240,028,00P
'160.8 160 8 20 609 46,40 131,001.740,00218,00 6,12 2.890,036,50P
'170.5 170 5 13 659 32,10 98,701.440,00169,00 6,69 2.290,025,20C
'170.6 170 6 15 654 38,10 116,001.680,00198,00 6,64 2.710,029,90C
'170.8 170 8 20 646 49,60 149,002.120,00249,00 6,53 3.410,039,00P
r=Radio exterior de redondeo
u =Per’metro
A =çrea de la secci—n
S =Momento est‡tico de media secci—n, respecto al eje X o Y
I =Momento de inercia de la secci—n, respecto al eje X o Y
W =2I:d. M—dulo resistente de la secci—n, respecto al eje X o Y
i = . Radio de giro de la secci—n, respecto al eje X o Y
It =M—dulo de torsi—n de la secci—n
IA:
83 Anejos de la Parte 2
Tabla 2.A2.3.Perfiles huecos rectangulares
Dimensiones TŽrminos de secci—n Peso
Perfil
a b e r u A S
x
I
x
W
x
i
x
S
y
I
y
W
y
i
y
I
t
p
mmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
3
cm
4
cm
3
cm cm
4
kp/m
3360.40.260402 5191 3,70 3,70 18,1 6,032,21 2,80 9,694,851,62 20,72,91P
3360.40.360403 8187 5,33 5,18 24,7 8,232,15 3,91 13,106,561,57 29,24,18P
3360.40.460404 10183 6,81 6,42 29,7 9,912,09 4,84 15,707,861,52 36,15,35P
3370.40.270402 5211 4,10 4,67 26,4 7,552,54 3,18 11,105,571,65 25,83,22C
3370.40.370403 8207 5,93 6,59 36,410,402,48 4,47 15,207,591,60 36,44,66C
3370.40.470404 10203 7,61 8,23 44,312,602,41 5,56 18,309,161,55 45,35,97C
3370.50.270502 5231 4,50 5,35 31,1 8,872,63 4,26 18,507,422,03 37,53,53C
3370.50.370503 8227 6,53 7,59 43,112,302,57 6,03 25,6010,301,98 53,65,13C
3370.50.470504 10223 8,41 9,55 53,015,102,51 7,57 31,4012,501,93 67,66,60C
3380.40.380403 8227 6,53 8,15 51,012,802,79 5,02 17,208,621,62 43,85,13P
3380.40.480404 10223 8,4110,20 62,615,602,73 6,28 20,9010,501,58 54,76,60P
3380.40.580405 1321910,1412,00 71,617,902,66 7,33 23,7011,901,53 63,67,96C
3380.60.380603 8267 7,7310,50 68,817,202,98 8,60 44,2014,702,39 88,56,07P
3380.60.480604 1026310,0013,30 85,721,402,93 10,90 54,9018,302,34 113,0 7,86P
3380.60.580605 1325912,1015,80 99,825,002,87 12,90 63,7021,202,29 134,0 9,53P
33100.50.3100503 8287 8,3313,10 105,020,903,54 8,13 35,6014,202,07 88,66,54P
33100.50.4100504 1028310,8016,80 131,026,103,48 10,30 44,1017,602,02 113,0 8,49P
33100.50.5100505 1327913,1020,00 153,030,603,41 12,20 51,1020,401,97 134,010,31P
33100.50.6100506 1527415,3022,90 171,034,203,34 13,90 56,7022,701,92 151,012,03C
33100.60.4100604 1030311,6018,70 149,029,803,58 13,10 67,4022,502,41 156,0 9,11P
33100.60.5100605 1329914,1022,40 175,035,103,52 15,70 78,9026,302,36 187,011,10C
33100.60.6100606 1529416,5025,70 197,039,503,46 17,90 88,4029,502,31 214,012,97C
33100.80.4100804 1034313,2022,60 186,037,203,75 19,40132,0033,003,16 254,010,37P
33100.80.5100805 1333916,1027,10 221,044,103,70 23,30156,0039,003,11 307,012,67P
33100.80.6100806 1533418,9031,30 251,050,103,64 26,90177,0044,303,06 355,014,85P
33120.60.4120604 1034313,2024,90 236,039,304,22 15,40 80,0026,702,46 201,010,37P
33120.60.5120605 1333916,1030,00 279,046,504,16 18,40 94,0031,402,41 241,012,67P
33120.60.6120606 1533418,9034,60 317,052,804,09 21,20106,0035,302,37 277,014,85P
33120.80.4120804 1038314,8029,60 290,048,304,42 22,40155,0038,803,24 332,011,63C
33120.80.5120805 1337918,1035,70 345,057,604,36 27,00184,0046,103,19 402,014,24P
33120.80.6120806 1537421,3041,40 395,065,804,30 31,30210,0052,503,14 467,016,74P
33120.100.41201004 1042316,4034,20 343,057,204,57 30,20260,0057,003,98 479,012,88P
33120.100.51201005 1341920,1041,50 412,068,604,52 36,60311,0062,203,93 583,015,81C
33120.100.61201006 1541423,7048,30 473,078,804,46 42,60357,0071,403,88 681,018,62C
33140.60.4140604 1038314,8032,00 349,049,804,85 17,60 92,6030,902,50 247,011,63C
33140.60.5140605 1337918,1038,60 415,059,304,78 21,20109,0036,402,45 297,014,24C
33140.60.6140606 1537421,3044,70 474,067,704,71 24,40124,0041,202,41 342,016,74C
33140.80.4140804 1042316,4037,40 423,060,405,08 25,40178,0044,603,30 412,012,88P
33140.80.5140805 1341920,1045,30 506,072,405,01 30,80212,0053,103,25 500,015,81P
33140.80.6140806 1541423,7052,70 582,083,104,95 35,70243,0060,703,20 582,018,62P
33140.100.41401004 1046318,0042,80 497,071,005,25 34,10297,0059,304,06 601,014,14P
33140.100.51401005 1345922,1052,10 598,085,405,20 41,40356,0071,204,01 733,017,38P
(continœa)
r=Radio exterior de redondeo S
y
=Momento est‡tico de media secci—n, respecto al
u=Per’metro eje Y
A=çrea de la secci—n
I
y
=Momento de inercia de la secci—n, respecto al
S
x
=Momento est‡tico de media secci—n, respecto eje Y
al eje X W
y
=2I
y
:b. M—dulo resistente de la secci—n, respecto
I
x
=Momento de inercia de la secci—n, respecto al eje X al eje Y
W
y
=2l
x
: a. M—dulo resistente de la secci—n, respecto
al eje Y i
y
= . Radio de giro de la secci—n, respecto al eje Y
i
x
= . Radio de giro de la secci—n, respecto al eje X I
t
=M—dulo de torsi—n de la secci—n
I
x
A:
I:A
y
Tabla 2.A2.3.Perfiles huecos rectangulares
Dimensiones TŽrminos de secci—n Peso
Perfil
a b e r u A S
x
I
x
W
x
i
x
S
y
I
y
W
y
i
y
I
t
p
mmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
3
cm
4
cm
3
cm cm
4
kp/m
3360.40.260402 5191 3,70 3,70 18,1 6,032,21 2,80 9,694,851,62 20,72,91P
3360.40.360403 8187 5,33 5,18 24,7 8,232,15 3,91 13,106,561,57 29,24,18P
3360.40.460404 10183 6,81 6,42 29,7 9,912,09 4,84 15,707,861,52 36,15,35P
3370.40.270402 5211 4,10 4,67 26,4 7,552,54 3,18 11,105,571,65 25,83,22C
3370.40.370403 8207 5,93 6,59 36,410,402,48 4,47 15,207,591,60 36,44,66C
3370.40.470404 10203 7,61 8,23 44,312,602,41 5,56 18,309,161,55 45,35,97C
3370.50.270502 5231 4,50 5,35 31,1 8,872,63 4,26 18,507,422,03 37,53,53C
3370.50.370503 8227 6,53 7,59 43,112,302,57 6,03 25,6010,301,98 53,65,13C
3370.50.470504 10223 8,41 9,55 53,015,102,51 7,57 31,4012,501,93 67,66,60C
3380.40.380403 8227 6,53 8,15 51,012,802,79 5,02 17,208,621,62 43,85,13P
3380.40.480404 10223 8,4110,20 62,615,602,73 6,28 20,9010,501,58 54,76,60P
3380.40.580405 1321910,1412,00 71,617,902,66 7,33 23,7011,901,53 63,67,96C
3380.60.380603 8267 7,7310,50 68,817,202,98 8,60 44,2014,702,39 88,56,07P
3380.60.480604 1026310,0013,30 85,721,402,93 10,90 54,9018,302,34 113,0 7,86P
3380.60.580605 1325912,1015,80 99,825,002,87 12,90 63,7021,202,29 134,0 9,53P
33100.50.3100503 8287 8,3313,10 105,020,903,54 8,13 35,6014,202,07 88,66,54P
33100.50.4100504 1028310,8016,80 131,026,103,48 10,30 44,1017,602,02 113,0 8,49P
33100.50.5100505 1327913,1020,00 153,030,603,41 12,20 51,1020,401,97 134,010,31P
33100.50.6100506 1527415,3022,90 171,034,203,34 13,90 56,7022,701,92 151,012,03C
33100.60.4100604 1030311,6018,70 149,029,803,58 13,10 67,4022,502,41 156,0 9,11P
33100.60.5100605 1329914,1022,40 175,035,103,52 15,70 78,9026,302,36 187,011,10C
33100.60.6100606 1529416,5025,70 197,039,503,46 17,90 88,4029,502,31 214,012,97C
33100.80.4100804 1034313,2022,60 186,037,203,75 19,40132,0033,003,16 254,010,37P
33100.80.5100805 1333916,1027,10 221,044,103,70 23,30156,0039,003,11 307,012,67P
33100.80.6100806 1533418,9031,30 251,050,103,64 26,90177,0044,303,06 355,014,85P
33120.60.4120604 1034313,2024,90 236,039,304,22 15,40 80,0026,702,46 201,010,37P
33120.60.5120605 1333916,1030,00 279,046,504,16 18,40 94,0031,402,41 241,012,67P
33120.60.6120606 1533418,9034,60 317,052,804,09 21,20106,0035,302,37 277,014,85P
33120.80.4120804 1038314,8029,60 290,048,304,42 22,40155,0038,803,24 332,011,63C
33120.80.5120805 1337918,1035,70 345,057,604,36 27,00184,0046,103,19 402,014,24P
33120.80.6120806 1537421,3041,40 395,065,804,30 31,30210,0052,503,14 467,016,74P
33120.100.41201004 1042316,4034,20 343,057,204,57 30,20260,0057,003,98 479,012,88P
33120.100.51201005 1341920,1041,50 412,068,604,52 36,60311,0062,203,93 583,015,81C
33120.100.61201006 1541423,7048,30 473,078,804,46 42,60357,0071,403,88 681,018,62C
33140.60.4140604 1038314,8032,00 349,049,804,85 17,60 92,6030,902,50 247,011,63C
33140.60.5140605 1337918,1038,60 415,059,304,78 21,20109,0036,402,45 297,014,24C
33140.60.6140606 1537421,3044,70 474,067,704,71 24,40124,0041,202,41 342,016,74C
33140.80.4140804 1042316,4037,40 423,060,405,08 25,40178,0044,603,30 412,012,88P
33140.80.5140805 1341920,1045,30 506,072,405,01 30,80212,0053,103,25 500,015,81P
33140.80.6140806 1541423,7052,70 582,083,104,95 35,70243,0060,703,20 582,018,62P
33140.100.41401004 1046318,0042,80 497,071,005,25 34,10297,0059,304,06 601,014,14P
33140.100.51401005 1345922,1052,10 598,085,405,20 41,40356,0071,204,01 733,017,38P
(continœa)
r=Radio exterior de redondeo S
y
=Momento est‡tico de media secci—n, respecto al
u=Per’metro eje Y
A=çrea de la secci—n
I
y
=Momento de inercia de la secci—n, respecto al
S
x
=Momento est‡tico de media secci—n, respecto eje Y
al eje X W
y
=2I
y
:b. M—dulo resistente de la secci—n, respecto
I
x
=Momento de inercia de la secci—n, respecto al eje X al eje Y
W
y
=2l
x
: a. M—dulo resistente de la secci—n, respecto
al eje Y i
y
= . Radio de giro de la secci—n, respecto al eje Y
i
x
= . Radio de giro de la secci—n, respecto al eje X I
t
=M—dulo de torsi—n de la secci—n
I
x
A:
I:A
y
NBE EA-95.Estructuras de acero en edificaci—n 84
Tabla 2.A2.3.(Continuaci—n)
Dimensiones TŽrminos de secci—n Peso
Perfil
a b e r u A S
x
I
x
W
x
i
x
S
y
I
y
W
y
i
y
I
t
p
mmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
3
cm
4
cm
3
cm cm
4
kp/m
33140.100.61401006 1545426,10 60,80690,098,505,14 48,20410,0082,003,96 858,020,51C
33160.80.4160804 1046318,00 46,00589,073,605,72 28,50201,0050,303,34 495,014,14C
33160.80.5160805 1345922,10 55,90708,088,505,65 34,50241,0060,203,30 601,017,38P
33160.80.6160806 1545426,10 65,20816,0102,005,59 40,20276,0069,003,25 700,020,51C
33160.120.51601205 1353926,10 71,40948,0119,006,02 58,70610,00102,004,831.200,020,52P
33160.120.61601206 1553430,90 83,701.100,0138,005,97 68,80707,00118,004,781.420,024,27P
33160.120.81601208 2052640,00106,001.370,0171,005,85 87,20878,00146,004,681.810,031,43C
33180.100.51801005 1353926,10 76,301.110,0123,006,51 50,90446,0089,304,131.050,020,52P
33180.100.61801006 1553430,90 89,401.280,0143,006,44 59,50516,00103,004,091.230,024,27P
33180.100.81801008 2052640,00113,001.600,0178,006,32 75,30637,00127,003,991.560,031,43P
33180.140.51801405 1361930,10 93,801.410,0157,006,85 79,10962,00137,005,651.840,023,66C
33180.140.61801406 1561435,70110,001.650,0183,006,79 92,901.120,00160,005,602.170,028,04C
33180.140.81801408 2060646,40141,002.070,0230,006,68119,001.410,00201,005,502.790,036,45C
33200.80.5200805 1353926,10 80,101.250,0125,006,91 42,00297,0074,203,37 810,020,52P
33200.80.6200806 1553430,90 93,801.450,0145,006,84 49,10342,0085,403,32 943,024,27P
33200.80.8200808 2052640,00119,001.800,0180,006,70 61,70418,00105,003,231.180,031,43P
33200.120.52001205 1361930,10 99,601.630,0163,007,35 70,20742,00124,004,961.660,023,66P
33200.120.62001206 1561435,70117,001.900,0190,007,29 82,50863,00144,004,921.950,028,04C
33200.120.82001208 2060646,40150,002.390,0239,007,17105,001.080,00180,004,822.500,036,45P
33200.150.52001505 1367933,10114,001.910,0191,007,60 94,001.230,00164,006,102.400,026,01C
33200.150.62001506 1567439,30135,002.240,0224,007,54111,001.440,00192,006,052.830,030,87C
33200.150.82001508 2066651,20173,002.830,0283,007,43142,001.820,00242,005,953.650,040,22P
Tabla 2.A2.3.(Continuaci—n)
Dimensiones TŽrminos de secci—n Peso
Perfil
a b e r u A S
x
I
x
W
x
i
x
S
y
I
y
W
y
i
y
I
t
p
mmmmmmmmmm cm
2
cm
3
cm
4
cm
3
cm cm
3
cm
4
cm
3
cm cm
4
kp/m
33140.100.61401006 1545426,10 60,80690,098,505,14 48,20410,0082,003,96 858,020,51C
33160.80.4160804 1046318,00 46,00589,073,605,72 28,50201,0050,303,34 495,014,14C
33160.80.5160805 1345922,10 55,90708,088,505,65 34,50241,0060,203,30 601,017,38P
33160.80.6160806 1545426,10 65,20816,0102,005,59 40,20276,0069,003,25 700,020,51C
33160.120.51601205 1353926,10 71,40948,0119,006,02 58,70610,00102,004,831.200,020,52P
33160.120.61601206 1553430,90 83,701.100,0138,005,97 68,80707,00118,004,781.420,024,27P
33160.120.81601208 2052640,00106,001.370,0171,005,85 87,20878,00146,004,681.810,031,43C
33180.100.51801005 1353926,10 76,301.110,0123,006,51 50,90446,0089,304,131.050,020,52P
33180.100.61801006 1553430,90 89,401.280,0143,006,44 59,50516,00103,004,091.230,024,27P
33180.100.81801008 2052640,00113,001.600,0178,006,32 75,30637,00127,003,991.560,031,43P
33180.140.51801405 1361930,10 93,801.410,0157,006,85 79,10962,00137,005,651.840,023,66C
33180.140.61801406 1561435,70110,001.650,0183,006,79 92,901.120,00160,005,602.170,028,04C
33180.140.81801408 2060646,40141,002.070,0230,006,68119,001.410,00201,005,502.790,036,45C
33200.80.5200805 1353926,10 80,101.250,0125,006,91 42,00297,0074,203,37 810,020,52P
33200.80.6200806 1553430,90 93,801.450,0145,006,84 49,10342,0085,403,32 943,024,27P
33200.80.8200808 2052640,00119,001.800,0180,006,70 61,70418,00105,003,231.180,031,43P
33200.120.52001205 1361930,10 99,601.630,0163,007,35 70,20742,00124,004,961.660,023,66P
33200.120.62001206 1561435,70117,001.900,0190,007,29 82,50863,00144,004,921.950,028,04C
33200.120.82001208 2060646,40150,002.390,0239,007,17105,001.080,00180,004,822.500,036,45P
33200.150.52001505 1367933,10114,001.910,0191,007,60 94,001.230,00164,006,102.400,026,01C
33200.150.62001506 1567439,30135,002.240,0224,007,54111,001.440,00192,006,052.830,030,87C
33200.150.82001508 2066651,20173,002.830,0283,007,43142,001.820,00242,005,953.650,040,22P
Anejo 2.A3.Perfiles y placas conformados
Perfiles conformados utilizados
Con carcter indicativo se describen los perfiles y
placas conformados de acero que se fabrican
usualmente para su empleo en estructuras de edi-
ficacin. En la columna de suministro de las ta-
blas, las indicaciones P existencia permanente,
o C consulta previa corresponden a las condicio-
nes normales de mercado.
Perfil conformado L
Su seccin tiene forma de ngulo recto con alas de igual longitud y vrtice redondeado. Las di-
mensiones y los trminos de seccin se detallan
en la tabla 2.A3.1.
Perfil conformado LD
Su seccin tiene forma de ngulo recto con las
alas de distinta longitud y vrtice redondeado.
Las dimensiones y los trminos de la seccin se
detallan en la tabla 2.A3.2.
Perfil conformado U
Su seccin tiene forma de U con alas de igual lon-
gitud y vrtices redondeados. Las dimensiones y los
trminos de seccin se detallan en la tabla 2.A3.3.
Perfil conformado C
Su seccin es un rectngulo con uno de sus lados ms largos parcialmente abierto y vrtices redon-
deados. Las dimensiones y los trminos de sec-
cin se detallan en la tabla 2.A3.4.
Perfil conformado W(omega)
Su seccin tiene forma de U con alas hacia afue-
ra y vrtices redondeados, con cierta semejanza
a la letra griega omega mayscula. Las dimensio-
nes y los trminos de seccin se detallan en la ta-
bla 2.A3.5.
Perfil conformado Z
Su seccin consta de un alma y en sus extremos alas perpendiculares en sentidos opuestos, con la-
bios rigidizadores en sus lados y vrtices redon-
deados. Las dimensiones y los trminos de sec-
cin se detallan en la tabla 2.A3.6.
Placa ondulada
Su seccin est constituida por ondas de perfil curvilneo. Las dimensiones ms usuales y sus tr-
minos de seccin se detallan en la tabla 2.A3.7.
Placa grecada
Su seccin est constituida por ondas de perfil trapecial con bordes redondeados. Las dimensio-
nes ms usuales y sus trminos se detallan en la
tabla 2.A3.8.
Placa nervada
Su seccin est formada por trapecios desiguales con bordes redondeados y a veces con acanala-
duras en los lados largos. No constituyen series
por la variedad de formas y dimensiones con que
se fabrican, que figuran junto con sus trminos de
seccin en los catlogos de los fabricantes.
Placa agrafada
Es una placa nervada, uno de cuyos bordes tiene una grafa, pliegue que se introduce en el borde liso de la placa contigua y se aplasta para mejo-
rar la estanquidad. Los datos de las placas figuran
en los catlogos de los fabricantes.
Panel
Es un elemento constituido por chapas conforma-
das de acero, enlazadas en fbrica o en obra, con
material aislante intermedio. Los datos de los pa-
neles figuran en los catlogos de los fabricantes.
Perfiles conformados utilizados
Con carcter indicativo se describen los perfiles y
placas conformados de acero que se fabrican
usualmente para su empleo en estructuras de edi-
ficacin. En la columna de suministro de las ta-
blas, las indicaciones P existencia permanente,
o C consulta previa corresponden a las condicio-
nes normales de mercado.
Perfil conformado L
Su seccin tiene forma de ngulo recto con alas de igual longitud y vrtice redondeado. Las di-
mensiones y los trminos de seccin se detallan
en la tabla 2.A3.1.
Perfil conformado LD
Su seccin tiene forma de ngulo recto con las
alas de distinta longitud y vrtice redondeado.
Las dimensiones y los trminos de la seccin se
detallan en la tabla 2.A3.2.
Perfil conformado U
Su seccin tiene forma de U con alas de igual lon-
gitud y vrtices redondeados. Las dimensiones y los
trminos de seccin se detallan en la tabla 2.A3.3.
Perfil conformado C
Su seccin es un rectngulo con uno de sus lados ms largos parcialmente abierto y vrtices redon-
deados. Las dimensiones y los trminos de sec-
cin se detallan en la tabla 2.A3.4.
Perfil conformado W(omega)
Su seccin tiene forma de U con alas hacia afue-
ra y vrtices redondeados, con cierta semejanza
a la letra griega omega mayscula. Las dimensio-
nes y los trminos de seccin se detallan en la ta-
bla 2.A3.5.
Perfil conformado Z
Su seccin consta de un alma y en sus extremos alas perpendiculares en sentidos opuestos, con la-
bios rigidizadores en sus lados y vrtices redon-
deados. Las dimensiones y los trminos de sec-
cin se detallan en la tabla 2.A3.6.
Placa ondulada
Su seccin est constituida por ondas de perfil curvilneo. Las dimensiones ms usuales y sus tr-
minos de seccin se detallan en la tabla 2.A3.7.
Placa grecada
Su seccin est constituida por ondas de perfil trapecial con bordes redondeados. Las dimensio-
nes ms usuales y sus trminos se detallan en la
tabla 2.A3.8.
Placa nervada
Su seccin est formada por trapecios desiguales con bordes redondeados y a veces con acanala-
duras en los lados largos. No constituyen series
por la variedad de formas y dimensiones con que
se fabrican, que figuran junto con sus trminos de
seccin en los catlogos de los fabricantes.
Placa agrafada
Es una placa nervada, uno de cuyos bordes tiene una grafa, pliegue que se introduce en el borde liso de la placa contigua y se aplasta para mejo-
rar la estanquidad. Los datos de las placas figuran
en los catlogos de los fabricantes.
Panel
Es un elemento constituido por chapas conforma-
das de acero, enlazadas en fbrica o en obra, con
material aislante intermedio. Los datos de los pa-
neles figuran en los catlogos de los fabricantes.
NBE EA-95.Estructuras de acero en edificaci—n 86
Tabla 2.A3.1.Perfiles conformados L
Dimensiones Posici—n de los ejes TŽrminos de secci—n Peso
Perfil
a e r u c v
1
v
2
w A I
x
I
xy
I
z
I
h
W
x
W
z
W
h
i
x
i
z
i
h
p
mm mm mm mm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cm
3
cm cm cm kp/m
LF40.2 40 2 2,51571,101,361,422,83 1,53 2,44 1,51 3,960,9280,8411,400,6531,26 1,610,7791,20P
LF40.3 40 3 3,01561,141,361,432,83 2,25 3,51 2,20 5,711,3201,2302,020,9201,25 1,590,7651,77C
LF40.4 40 4 6,01531,201,281,412,83 2,90 4,43 2,89 7,321,5501,5802,591,0901,24 1,590,7302,28C
LF50.2 50 2 3,01971,351,701,773,54 1,93 4,85 3,00 7,851,8501,3302,221,0501,59 2,020,9801,51P
LF50.3 50 3 6,01941,411,621,763,54 2,81 6,97 4,4411,402,5201,9402,231,4401,57 2,010,9472,21C
LF50.4 50 4 8,01911,461,571,753,54 3,67 8,92 5,8214,703,0902,5204,171,7701,56 2,010,9192,88C
LF60.3 60 3 6,02341,661,972,114,24 3,4112,30 7,7420,004,5402,8304,722,1501,90 2,421,1502,68P
LF60.4 60 4 8,02311,711,922,104,24 4,4715,8010,2026,005,6603,6906,132,6901,88 2,411,1303,51C
LF60.5 60 5 10,02291,771,882,104,24 5,4819,1012,5031,706,5904,5207,473,1401,87 2,401,1004,30C
LF80.4 80 4 8,03112,212,632,815,66 6,0738,8024,5063,3014,3006,70011,205,0902,53 3,231,5404,76P
LF80.5 80 5 10,03092,262,582,815,66 7,4847,3030,3077,6017,1008,25013,706,0702,51 3,221,5105,87C
LF80.6 80 6 12,03072,322,532,805,66 8,8555,4035,9091,3019,4009,75016,106,9402,50 3,211,4806,95C
LF100.5 100 5 6,03912,753,353,547,07 9,5295,1059,40155,0035,70013,10021,9010,1003,16 4,031,9407,48P
LF100.6 100 6 10,03892,803,303,537,0711,30112,0070,70183,0041,20015,60025,8011,7003,15 4,021,9108,87C
LF100.7 100 7 12,03872,863,253,537,0713,00128,0081,80210,0046,20017,90029,7013,1003,13 4,011,88010,20C
LF120.5 120 5 8,04713,254,054,258,4911,50167,00104,00270,0063,40019,10031,9014,9003,61 4,842,3509,05P
LF120.6 120 6 10,04693,304,014,248,4913,70197,00123,00320,0073,80022,70037,8017,4003,79 4,842,32010,80C
LF120.7 120 7 12,04673,363,964,248,4915,80226,00143,00369,0083,40026,20043,5019,7003,78 4,832,29012,40C
u=Per’metro i
x
=i
y
. Radio de giro, respecto a x — y
A=çrea de la secci—n i
z
=Radio de giro, respecto a z
I
x
=I
y
. Momento de inercia de la secci—n, respecto a x — yi
h
=Radio de giro, respecto a h
I
xy
=Momento centr’fugo de la secci—n, respecto a x, y
I
z
=Momento de inercia de la secci—n, respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h
W
x
=W
y
. M—dulo resistente, respecto a x — y
W
z
=M—dulo resistente, respecto a z
W
h
=M—dulo resistente, respecto a h
Tabla 2.A3.1.Perfiles conformados L
Dimensiones Posici—n de los ejes TŽrminos de secci—n Peso
Perfil
a e r u c v
1
v
2
w A I
x
I
xy
I
z
I
h
W
x
W
z
W
h
i
x
i
z
i
h
p
mm mm mm mm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cm
3
cm cm cm kp/m
LF40.2 40 2 2,51571,101,361,422,83 1,53 2,44 1,51 3,960,9280,8411,400,6531,26 1,610,7791,20P
LF40.3 40 3 3,01561,141,361,432,83 2,25 3,51 2,20 5,711,3201,2302,020,9201,25 1,590,7651,77C
LF40.4 40 4 6,01531,201,281,412,83 2,90 4,43 2,89 7,321,5501,5802,591,0901,24 1,590,7302,28C
LF50.2 50 2 3,01971,351,701,773,54 1,93 4,85 3,00 7,851,8501,3302,221,0501,59 2,020,9801,51P
LF50.3 50 3 6,01941,411,621,763,54 2,81 6,97 4,4411,402,5201,9402,231,4401,57 2,010,9472,21C
LF50.4 50 4 8,01911,461,571,753,54 3,67 8,92 5,8214,703,0902,5204,171,7701,56 2,010,9192,88C
LF60.3 60 3 6,02341,661,972,114,24 3,4112,30 7,7420,004,5402,8304,722,1501,90 2,421,1502,68P
LF60.4 60 4 8,02311,711,922,104,24 4,4715,8010,2026,005,6603,6906,132,6901,88 2,411,1303,51C
LF60.5 60 5 10,02291,771,882,104,24 5,4819,1012,5031,706,5904,5207,473,1401,87 2,401,1004,30C
LF80.4 80 4 8,03112,212,632,815,66 6,0738,8024,5063,3014,3006,70011,205,0902,53 3,231,5404,76P
LF80.5 80 5 10,03092,262,582,815,66 7,4847,3030,3077,6017,1008,25013,706,0702,51 3,221,5105,87C
LF80.6 80 6 12,03072,322,532,805,66 8,8555,4035,9091,3019,4009,75016,106,9402,50 3,211,4806,95C
LF100.5 100 5 6,03912,753,353,547,07 9,5295,1059,40155,0035,70013,10021,9010,1003,16 4,031,9407,48P
LF100.6 100 6 10,03892,803,303,537,0711,30112,0070,70183,0041,20015,60025,8011,7003,15 4,021,9108,87C
LF100.7 100 7 12,03872,863,253,537,0713,00128,0081,80210,0046,20017,90029,7013,1003,13 4,011,88010,20C
LF120.5 120 5 8,04713,254,054,258,4911,50167,00104,00270,0063,40019,10031,9014,9003,61 4,842,3509,05P
LF120.6 120 6 10,04693,304,014,248,4913,70197,00123,00320,0073,80022,70037,8017,4003,79 4,842,32010,80C
LF120.7 120 7 12,04673,363,964,248,4915,80226,00143,00369,0083,40026,20043,5019,7003,78 4,832,29012,40C
u=Per’metro i
x
=i
y
. Radio de giro, respecto a x — y
A=çrea de la secci—n i
z
=Radio de giro, respecto a z
I
x
=I
y
. Momento de inercia de la secci—n, respecto a x — yi
h
=Radio de giro, respecto a h
I
xy
=Momento centr’fugo de la secci—n, respecto a x, y
I
z
=Momento de inercia de la secci—n, respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h
W
x
=W
y
. M—dulo resistente, respecto a x — y
W
z
=M—dulo resistente, respecto a z
W
h
=M—dulo resistente, respecto a h
87 Anejos de la Parte 2
Tabla 2.A3.2.Perfiles conformados LD
Dimensiones Posici—n de los ejes TŽrminos de secci—n Peso
Perfil
aberu c
1
c
2
v
1
v
2
v
3
w
1
w
2
tga A I
x
I
y
I
xy
I
z
I
h
W
x
W
y
W
z
W
h
i
x
i
y
i
z
i
h
p
mmmmmmmmmm cm cm cm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cm
3
cm
3
cm cm cm cm kp/m
LF40.20.2402022,51171,450,4210,6971,180,4912,571,830,2871,131,900,3440,4872,050,2040,7460,2180,7960,1741,300,5521,350,4250,887 P
LF40.20.3402033,01161,500,4620,7141,150,5312,531,860,2881,652,710,4800,6932,910,2821,0800,3121,1500,2461,280,5391,330,4131,300 C
LF50.25.2502522,51471,780,5040,8671,490,5923,232,260,2861,433,810,6920,9694,090,4151,1800,3471,2600,2791,630,6961,690,5591,120 P
LF50.25.3502533,01461,830,5450,8841,450,6323,202,300,2852,105,480,9801,3905,880,5831,7300,5011,8400,3991,610,6831,670,5271,650 C
LF60.30.3603033,01762,160,6291,0501,770,7333,862,730,2842,559,691,7402,46010,401,0502,5300,7352,6900,5901,350,8272,020,6402,000 P
LF60.30.4603046,01732,240,6791,0401,710,7863,802,800,2923,3012,302,2003,22013,201,2603,2600,9483,4800,7361,930,8162,000,6172,590 C
LF80.40.4804046,02332,910,8451,3802,340,9885,133,670,2894,5030,305,4907,84032,603,2205,9501,7406,3601,3802,601,1002,690,8483,530 P
LF80.40.5804058,02312,970,8931,3802,201,0405,073,730,2935,5236,606,5909,62039,403,7707,2902,1207,7701,6502,571,0902,670,8284,340 C
LF100.50.51005058,02913,641,0601,7202,911,2406,404,590,2907,0273,9013,40019,20079,507,81011,6003,39012,4002,6803,241,3803,361,0605,510 P
LF100.50.610050610,02893,711,1101,7202,861,2906,354,650,2938,3086,2015,60022,70092,908,90013,7003,99014,6003,1103,221,3703,351,0406,520 C
LF120.60.51206058,03514,301,2202,0603,531,4407,735,460,2998,52130,0023,70033,600140,0014,00016,9004,97018,1003,9703,911,6704,051,2806,690 P
LF120.60.612060610,03494,371,2702,0603,491,4907,685,520,29110,10153,0027,70039,800165,0016,10020,0005,86021,4004,6303,891,6604,041,2607,930 C
u=Per’metro W
y
=M—dulo resistente, respecto a y
A=çrea de la secci—n W
z
=M—dulo resistente, respecto a z
I
x
=Momento de inercia de la secci—n, respecto a x W
h
=M—dulo resistente, respecto a h
I
y
=Momento de inercia de la secci—n, respecto a y i
x
=Radio de giro, respecto a x
I
xy
=Momento centr’fugo de la secci—n, respecto a x, y i
y
=Radio de giro, respecto a y
I
z
=Momento de inercia de la secci—n, respecto a z i
z
=Radio de giro, respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h i
h
=Radio de giro, respecto a h
W
x
=M—dulo resistente, respecto a x
Tabla 2.A3.3.Perfiles conformados U
Dimensiones TŽrminos de secci—n Peso
Perfil
h b e r u c m A
I
x
I
y
I
t
I
a
W
x
W
y
i
x
i
y
p
mm mm mm mm mm cm cm cm
2
cm
4
cm
4
cm
4
cm
6
cm
3
cm
3
cm cm kp/m
UF60.3 60 30 3 3 226 0,890 1,85 3,30 17,5 2,850,0991 14,8 5,85 1,35 2,31 0,93 2,59C
UF60.4 60 30 4 6 218 0,954 1,85 4,20 21,1 3,510,2240 15,8 7,03 1,72 2,24 0,91 3,30C
UF80.3 80 40 3 3 306 1,140 2,48 4,50 43,9 7,030,1350 69,011,00 2,46 3,12 1,25 3,53P
UF80.4 80 40 4 6 298 1,200 2,49 5,80 54,3 8,880,3100 79,313,60 3,17 3,06 1,24 4,55C
UF80.5 80 40 5 8 292 1,260 2,48 7,04 63,410,500,5870 85,715,90 3,84 3,00 1,22 5,52C
UF100.3100 50 3 3 386 1,390 3,10 5,70 88,414,100,1710 223,017,70 3,90 3,94 1,57 4,48P
UF100.4100 50 4 6 378 1,450 3,12 7,40111,018,000,3950 226,022,20 5,07 3,88 1,56 5,81C
UF100.5100 50 5 8 372 1,510 3,12 9,04132,021,600,7540 299,026,40 6,19 3,82 1,55 7,09C
UF120.4120 60 4 6 458 1,700 3,75 9,00198,031,900,4800 702,033,10 7,42 4,70 1,88 7,06P
UF120.5120 60 5 8 452 1,750 3,75 11,00238,038,600,9210 808,039,60 9,08 4,64 1,87 8,66C
UF120.6120 60 6 10 446 1,810 3,75 13,00273,044,801,5600 886,045,5010,70 4,58 1,86 10,20C
UF140.4140 70 4 6 538 1,950 4,38 10,60322,051,600,56601.580,046,0010,20 5,51 2,21 8,32P
UF140.5140 70 5 8 532 2,000 4,38 13,00388,062,701,09001.850,055,5012,50 5,46 2,19 10,20C
UF140.6140 70 6 10 526 2,060 4,38 15,40449,073,101,85002.060,064,2014,80 5,40 2,18 12,10C
u=Per’metro W
x
=M—dulo resistente, respecto a x
c=Posici—n del eje Y W
y
=M—dulo resistente, respecto a y
m=Distancia al centro de esfuerzos cortantes i
x
=Radio de giro, respecto a x
A=çrea de la secci—n i
y
=Radio de giro, respecto a y
I
x
=Momento de inercia de la secci—n, respecto a x
I
y
=Momento de inercia de la secci—n, respecto a y
I
t
=Momento de torsi—n de la secci—n
I
a
=M—dulo de alabeo de la secci—n
Tabla 2.A3.2.Perfiles conformados LD
Dimensiones Posici—n de los ejes TŽrminos de secci—n Peso
Perfil
aberu c
1
c
2
v
1
v
2
v
3
w
1
w
2
tga A I
x
I
y
I
xy
I
z
I
h
W
x
W
y
W
z
W
h
i
x
i
y
i
z
i
h
p
mmmmmmmmmm cm cm cm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cm
3
cm
3
cm cm cm cm kp/m
LF40.20.2402022,51171,450,4210,6971,180,4912,571,830,2871,131,900,3440,4872,050,2040,7460,2180,7960,1741,300,5521,350,4250,887 P
LF40.20.3402033,01161,500,4620,7141,150,5312,531,860,2881,652,710,4800,6932,910,2821,0800,3121,1500,2461,280,5391,330,4131,300 C
LF50.25.2502522,51471,780,5040,8671,490,5923,232,260,2861,433,810,6920,9694,090,4151,1800,3471,2600,2791,630,6961,690,5591,120 P
LF50.25.3502533,01461,830,5450,8841,450,6323,202,300,2852,105,480,9801,3905,880,5831,7300,5011,8400,3991,610,6831,670,5271,650 C
LF60.30.3603033,01762,160,6291,0501,770,7333,862,730,2842,559,691,7402,46010,401,0502,5300,7352,6900,5901,350,8272,020,6402,000 P
LF60.30.4603046,01732,240,6791,0401,710,7863,802,800,2923,3012,302,2003,22013,201,2603,2600,9483,4800,7361,930,8162,000,6172,590 C
LF80.40.4804046,02332,910,8451,3802,340,9885,133,670,2894,5030,305,4907,84032,603,2205,9501,7406,3601,3802,601,1002,690,8483,530 P
LF80.40.5804058,02312,970,8931,3802,201,0405,073,730,2935,5236,606,5909,62039,403,7707,2902,1207,7701,6502,571,0902,670,8284,340 C
LF100.50.51005058,02913,641,0601,7202,911,2406,404,590,2907,0273,9013,40019,20079,507,81011,6003,39012,4002,6803,241,3803,361,0605,510 P
LF100.50.610050610,02893,711,1101,7202,861,2906,354,650,2938,3086,2015,60022,70092,908,90013,7003,99014,6003,1103,221,3703,351,0406,520 C
LF120.60.51206058,03514,301,2202,0603,531,4407,735,460,2998,52130,0023,70033,600140,0014,00016,9004,97018,1003,9703,911,6704,051,2806,690 P
LF120.60.612060610,03494,371,2702,0603,491,4907,685,520,29110,10153,0027,70039,800165,0016,10020,0005,86021,4004,6303,891,6604,041,2607,930 C
u=Per’metro W
y
=M—dulo resistente, respecto a y
A=çrea de la secci—n W
z
=M—dulo resistente, respecto a z
I
x
=Momento de inercia de la secci—n, respecto a x W
h
=M—dulo resistente, respecto a h
I
y
=Momento de inercia de la secci—n, respecto a y i
x
=Radio de giro, respecto a x
I
xy
=Momento centr’fugo de la secci—n, respecto a x, y i
y
=Radio de giro, respecto a y
I
z
=Momento de inercia de la secci—n, respecto a z i
z
=Radio de giro, respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h i
h
=Radio de giro, respecto a h
W
x
=M—dulo resistente, respecto a x
Tabla 2.A3.3.Perfiles conformados U
Dimensiones TŽrminos de secci—n Peso
Perfil
h b e r u c m A
I
x
I
y
I
t
I
a
W
x
W
y
i
x
i
y
p
mm mm mm mm mm cm cm cm
2
cm
4
cm
4
cm
4
cm
6
cm
3
cm
3
cm cm kp/m
UF60.3 60 30 3 3 226 0,890 1,85 3,30 17,5 2,850,0991 14,8 5,85 1,35 2,31 0,93 2,59C
UF60.4 60 30 4 6 218 0,954 1,85 4,20 21,1 3,510,2240 15,8 7,03 1,72 2,24 0,91 3,30C
UF80.3 80 40 3 3 306 1,140 2,48 4,50 43,9 7,030,1350 69,011,00 2,46 3,12 1,25 3,53P
UF80.4 80 40 4 6 298 1,200 2,49 5,80 54,3 8,880,3100 79,313,60 3,17 3,06 1,24 4,55C
UF80.5 80 40 5 8 292 1,260 2,48 7,04 63,410,500,5870 85,715,90 3,84 3,00 1,22 5,52C
UF100.3100 50 3 3 386 1,390 3,10 5,70 88,414,100,1710 223,017,70 3,90 3,94 1,57 4,48P
UF100.4100 50 4 6 378 1,450 3,12 7,40111,018,000,3950 226,022,20 5,07 3,88 1,56 5,81C
UF100.5100 50 5 8 372 1,510 3,12 9,04132,021,600,7540 299,026,40 6,19 3,82 1,55 7,09C
UF120.4120 60 4 6 458 1,700 3,75 9,00198,031,900,4800 702,033,10 7,42 4,70 1,88 7,06P
UF120.5120 60 5 8 452 1,750 3,75 11,00238,038,600,9210 808,039,60 9,08 4,64 1,87 8,66C
UF120.6120 60 6 10 446 1,810 3,75 13,00273,044,801,5600 886,045,5010,70 4,58 1,86 10,20C
UF140.4140 70 4 6 538 1,950 4,38 10,60322,051,600,56601.580,046,0010,20 5,51 2,21 8,32P
UF140.5140 70 5 8 532 2,000 4,38 13,00388,062,701,09001.850,055,5012,50 5,46 2,19 10,20C
UF140.6140 70 6 10 526 2,060 4,38 15,40449,073,101,85002.060,064,2014,80 5,40 2,18 12,10C
u=Per’metro W
x
=M—dulo resistente, respecto a x
c=Posici—n del eje Y W
y
=M—dulo resistente, respecto a y
m=Distancia al centro de esfuerzos cortantes i
x
=Radio de giro, respecto a x
A=çrea de la secci—n i
y
=Radio de giro, respecto a y
I
x
=Momento de inercia de la secci—n, respecto a x
I
y
=Momento de inercia de la secci—n, respecto a y
I
t
=Momento de torsi—n de la secci—n
I
a
=M—dulo de alabeo de la secci—n
NBE EA-95.Estructuras de acero en edificaci—n 88
Tabla 2.A3.4.Perfiles conformados C
Dimensiones TŽrminos de secci—n Peso
Perfil
h b a e r u c m A
I
x
I
y
I
t
I
a
W
x
W
y
i
x
i
y
p
mm mm mm mm mm mm cm cm cm
2
cm
4
cm
4
cm
4
cm
6
cm
3
cm
3
cm cm kp/m
CF60,2,06040152,02,5316 1,63 3,72 3,12 17,8 7,160,0416 74,9 5,93 3,03 2,39 1,52 2,45P
CF60,2,56040152,52,5312 1,63 3,62 3,84 21,5 8,560,0800 90,4 7,16 3,62 2,37 1,49 3,01C
CF60,3,06040153,03,0307 1,63 3,45 4,50 24,6 9,710,1350 109,0 8,22 4,10 2,34 1,47 3,53C
CF80,2,08040152,02,5356 1,46 3,40 3,52 34,9 8,000,0469 122,0 8,74 3,15 3,15 1,51 2,76P
CF80,2,58040152,52,5352 1,46 3,31 4,34 42,4 9,570,0904 148,010,60 3,77 3,13 1,49 3,40C
CF80,3,08040153,03,0347 1,46 3,17 5,10 49,010,900,1530 179,012,30 4,28 3,10 1,46 4,00C
CF100,2,010040152,02,5396 1,32 3,14 3,92 59,2 8,670,0523 189,011,80 3,24 3,89 1,49 3,08P
CF100,2,510040152,52,5392 1,32 3,06 4,84 72,110,400,1010 228,014,40 3,87 3,86 1,46 3,80C
CF100,3,010040153,03,0387 1,32 2,94 5,70 83,611,800,1710 275,016,70 4,40 3,83 1,44 4,48C
CF120,2,012050202,02,5496 1,72 4,22 4,92 109,017,900,0656 547,018,10 6,47 4,70 1,91 3,86P
CF120,2,512050202,52,5492 1,72 4,14 6,09 133,021,700,1270 668,022,20 6,61 4,68 1,89 4,78C
CF120,3,012050203,03,0487 1,72 4,02 7,20 156,025,000,2160 808,025,90 7,61 4,65 1,86 5,65C
CF140,2,014050202,02,5536 1,60 3,97 5,32 156,018,900,0709 751,022,30 5,56 5,42 1,89 4,17P
CF140,2,514050202,52,5532 1,60 3,89 6,59 192,022,900,1370 917,027,40 6,72 5,40 1,86 5,17C
CF140,3,014050203,03,0527 1,60 3,78 7,80 225,026,300,23401.105,032,10 7,74 5,37 1,84 6,13C
CF160,2,016060202,02,5616 1,86 4,62 6,12 240,030,500,08161.493,030,00 7,37 6,26 2,23 4,80P
CF160,2,516060202,52,5612 1,86 4,54 7,59 295,037,000,15801.627,036,80 8,95 6,23 2,21 5,95C
CF160,3,016060203,03,0607 1,86 4,43 9,00 346,042,900,27002.192,043,3010,40 6,20 2,18 7,07C
CF180,2,018060202,02,5656 1,75 4,40 6,52 316,031,70,08691.930,035,1 7,46 6,97 2,20 5,12P
CF180,2,518060202,52,5652 1,75 4,35 8,09 389,038,50,16902.360,043,2 9,06 6,94 2,18 6,35C
CF180,3,018060203,03,0647 1,75 4,22 9,60 458,044,500,28802.825,050,9010,50 6,91 2,15 7,54C
CF200,2,020060202,02,5696 1,66 4,20 6,92 406,032,700,09232.438,040,60 7,53 7,66 2,17 5,43P
CF200,2,520060202,52,5692 1,66 4,13 8,59 500,039,700,17902.981,050,00 9,15 7,63 2,15 6,74C
CF200,3,020060203,03,0687 1,66 4,04 10,20 588,046,000,30603.561,058,8010,60 7,60 2,12 8,01C
CF225,2,522580252,52,5842 2,38 5,96 10,50 806,090,800,21808.320,071,7016,20 8,78 2,95 8,21P
CF225,3,022580253,03,0837 2,38 5,86 12,50 953,0106,000,37409.970,084,7018,90 8,75 2,92 9,78C
CF225,4,022580254,06,0819 2,36 5,53 16,201.213,0131,000,865014.057,0108,0023,30 8,66 2,85 12,70C
CF250,2,525080252,52,5892 2,25 5,70 11,101.083,093,800,231015.028,082,6016,30 9,65 2,91 8,70P
CF250,3,025080253,03,0887 2,25 5,60 13,201.222,0110,000,396012.601,097,7019,10 9,62 2,88 10,40C
CF250,4,025080254,06,0869 2,23 5,30 17,201.559,0136,000,918017.607,0125,0023,50 9,52 2,81 13,50C
CF275,2,527580252,52,5942 2,14 6,47 11,701.259,096,500,244013.061,094,1016,5010,50 2,87 9,19P
CF275,3,027580253,03,0937 2,14 5,37 14,001.532,0113,000,429015.611,0111,0019,2010,50 2,84 11,00C
CF275,4,027580254,06,0912 2,12 5,09 18,201.959,0140,000,971021.655,0142,0023,8010,40 2,77 14,30C
CF300,2,530080252,52,5992 2,04 5,25 12,301.592,098,900,257115.931,0106,0016,6011,40 2,83 9,68P
CF300,3,030080253,03,0987 2,04 5,16 14,701.885,0116,000,441019.017,0126,0019,4011,30 2,80 11,50C
CF300,4,030080254,06,0969 2,02 4,89 19,202.415,0143,001,020026.216,0161,0024,0011,20 2,73 15,10C
u=Per’metro W
x
=M—dulo resistente, respecto a x
c=Posici—n del eje Y W
y
=M—dulo resistente, respecto a y
m=Distancia al centro de esfuerzos cortantes i
x
=Radio de giro, respecto a x
A=çrea de la secci—n i
y
=Radio de giro, respecto a y
I
x
=Momento de inercia de la secci—n, respecto a x
I
y
=Momento de inercia de la secci—n, respecto a y
I
t
=Momento de torsi—n de la secci—n
I
a
=M—dulo de alabeo de la secci—n
Tabla 2.A3.4.Perfiles conformados C
Dimensiones TŽrminos de secci—n Peso
Perfil
h b a e r u c m A
I
x
I
y
I
t
I
a
W
x
W
y
i
x
i
y
p
mm mm mm mm mm mm cm cm cm
2
cm
4
cm
4
cm
4
cm
6
cm
3
cm
3
cm cm kp/m
CF60,2,06040152,02,5316 1,63 3,72 3,12 17,8 7,160,0416 74,9 5,93 3,03 2,39 1,52 2,45P
CF60,2,56040152,52,5312 1,63 3,62 3,84 21,5 8,560,0800 90,4 7,16 3,62 2,37 1,49 3,01C
CF60,3,06040153,03,0307 1,63 3,45 4,50 24,6 9,710,1350 109,0 8,22 4,10 2,34 1,47 3,53C
CF80,2,08040152,02,5356 1,46 3,40 3,52 34,9 8,000,0469 122,0 8,74 3,15 3,15 1,51 2,76P
CF80,2,58040152,52,5352 1,46 3,31 4,34 42,4 9,570,0904 148,010,60 3,77 3,13 1,49 3,40C
CF80,3,08040153,03,0347 1,46 3,17 5,10 49,010,900,1530 179,012,30 4,28 3,10 1,46 4,00C
CF100,2,010040152,02,5396 1,32 3,14 3,92 59,2 8,670,0523 189,011,80 3,24 3,89 1,49 3,08P
CF100,2,510040152,52,5392 1,32 3,06 4,84 72,110,400,1010 228,014,40 3,87 3,86 1,46 3,80C
CF100,3,010040153,03,0387 1,32 2,94 5,70 83,611,800,1710 275,016,70 4,40 3,83 1,44 4,48C
CF120,2,012050202,02,5496 1,72 4,22 4,92 109,017,900,0656 547,018,10 6,47 4,70 1,91 3,86P
CF120,2,512050202,52,5492 1,72 4,14 6,09 133,021,700,1270 668,022,20 6,61 4,68 1,89 4,78C
CF120,3,012050203,03,0487 1,72 4,02 7,20 156,025,000,2160 808,025,90 7,61 4,65 1,86 5,65C
CF140,2,014050202,02,5536 1,60 3,97 5,32 156,018,900,0709 751,022,30 5,56 5,42 1,89 4,17P
CF140,2,514050202,52,5532 1,60 3,89 6,59 192,022,900,1370 917,027,40 6,72 5,40 1,86 5,17C
CF140,3,014050203,03,0527 1,60 3,78 7,80 225,026,300,23401.105,032,10 7,74 5,37 1,84 6,13C
CF160,2,016060202,02,5616 1,86 4,62 6,12 240,030,500,08161.493,030,00 7,37 6,26 2,23 4,80P
CF160,2,516060202,52,5612 1,86 4,54 7,59 295,037,000,15801.627,036,80 8,95 6,23 2,21 5,95C
CF160,3,016060203,03,0607 1,86 4,43 9,00 346,042,900,27002.192,043,3010,40 6,20 2,18 7,07C
CF180,2,018060202,02,5656 1,75 4,40 6,52 316,031,70,08691.930,035,1 7,46 6,97 2,20 5,12P
CF180,2,518060202,52,5652 1,75 4,35 8,09 389,038,50,16902.360,043,2 9,06 6,94 2,18 6,35C
CF180,3,018060203,03,0647 1,75 4,22 9,60 458,044,500,28802.825,050,9010,50 6,91 2,15 7,54C
CF200,2,020060202,02,5696 1,66 4,20 6,92 406,032,700,09232.438,040,60 7,53 7,66 2,17 5,43P
CF200,2,520060202,52,5692 1,66 4,13 8,59 500,039,700,17902.981,050,00 9,15 7,63 2,15 6,74C
CF200,3,020060203,03,0687 1,66 4,04 10,20 588,046,000,30603.561,058,8010,60 7,60 2,12 8,01C
CF225,2,522580252,52,5842 2,38 5,96 10,50 806,090,800,21808.320,071,7016,20 8,78 2,95 8,21P
CF225,3,022580253,03,0837 2,38 5,86 12,50 953,0106,000,37409.970,084,7018,90 8,75 2,92 9,78C
CF225,4,022580254,06,0819 2,36 5,53 16,201.213,0131,000,865014.057,0108,0023,30 8,66 2,85 12,70C
CF250,2,525080252,52,5892 2,25 5,70 11,101.083,093,800,231015.028,082,6016,30 9,65 2,91 8,70P
CF250,3,025080253,03,0887 2,25 5,60 13,201.222,0110,000,396012.601,097,7019,10 9,62 2,88 10,40C
CF250,4,025080254,06,0869 2,23 5,30 17,201.559,0136,000,918017.607,0125,0023,50 9,52 2,81 13,50C
CF275,2,527580252,52,5942 2,14 6,47 11,701.259,096,500,244013.061,094,1016,5010,50 2,87 9,19P
CF275,3,027580253,03,0937 2,14 5,37 14,001.532,0113,000,429015.611,0111,0019,2010,50 2,84 11,00C
CF275,4,027580254,06,0912 2,12 5,09 18,201.959,0140,000,971021.655,0142,0023,8010,40 2,77 14,30C
CF300,2,530080252,52,5992 2,04 5,25 12,301.592,098,900,257115.931,0106,0016,6011,40 2,83 9,68P
CF300,3,030080253,03,0987 2,04 5,16 14,701.885,0116,000,441019.017,0126,0019,4011,30 2,80 11,50C
CF300,4,030080254,06,0969 2,02 4,89 19,202.415,0143,001,020026.216,0161,0024,0011,20 2,73 15,10C
u=Per’metro W
x
=M—dulo resistente, respecto a x
c=Posici—n del eje Y W
y
=M—dulo resistente, respecto a y
m=Distancia al centro de esfuerzos cortantes i
x
=Radio de giro, respecto a x
A=çrea de la secci—n i
y
=Radio de giro, respecto a y
I
x
=Momento de inercia de la secci—n, respecto a x
I
y
=Momento de inercia de la secci—n, respecto a y
I
t
=Momento de torsi—n de la secci—n
I
a
=M—dulo de alabeo de la secci—n
89 Anejos de la Parte 2
Tabla 2.A3.5.Perfiles conformados W(omega)
Dimensiones TŽrminos de secci—n Peso
Perfil
h b a e r u c m A
I
x
I
y
I
t
I
a
W
x
W
y
i
x
i
y
p
mm mm mm mm mm mm cm cm cm
2
cm
4
cm
4
cm
4
cm
6
cm
3
cm
3
cm cm kp/m
OF40.2.04040152,02,5272 2,14 3,46 2,72 6,08 9,840,0363 10,5 2,84 2,98 1,50 1,90 2,13P
OF40.2.54040152,52,5267 2,14 3,42 3,34 7,2411,700,0696 12,0 3,38 3,61 1,47 1,88 2,62C
OF40.3.04040153,03,0261 2,14 3,39 3,91 8,1713,300,1170 12,9 3,81 4,17 1,45 1,85 3,07C
OF50.2.05050172,02,5340 2,73 4,38 3,40 12,0018,900,0453 33,2 4,40 4,72 1,88 2,36 2,67P
OF50.2.55050172,52,5335 2,73 4,34 4,19 14,4022,800,0873 38,8 5,29 5,76 1,86 2,33 3,29C
OF50.3.05050173,03,0329 2,73 4,31 4,93 16,5026,100,1480 42,7 6,04 6,70 1,83 2,30 3,87C
OF60.2.06040202,02,5372 3,00 5,19 3,72 18,2015,300,0496 43,0 6,08 4,01 2,21 2,03 2,92P
OF60.2.56040202,52,5367 3,00 5,15 4,59 22,0018,300,0956 50,6 7,34 4,89 2,19 2,00 3,60C
OF60.3.06040203,03,0361 3,00 5,12 5,41 25,3021,000,1620 56,1 8,44 5,68 2,16 1,97 4,25C
OF80.2.58050252,52,5487 4,00 6,95 6,09 52,6038,800,1268198,013,10 8,17 2,94 2,52 4,78P
OF80.3.08050253,03,0481 4,00 6,92 7,21 61,0045,000,2160225,015,30 9,57 2,91 2,50 5,66C
OF100.2.510050302,52,5587 4,83 8,48 7,34 96,9050,700,1529471,018,80 9,66 3,63 2,63 5,76P
OF100.3.010050303,03,0581 4,83 8,45 8,71113,0059,000,2610539,021,9011,30 3,61 2,60 6,94C
u=Per’metro W
x
=M—dulo resistente, respecto a x
c=Posici—n del eje Y W
y
=M—dulo resistente, respecto a y
m=Distancia al centro de esfuerzos cortantes i
x
=Radio de giro, respecto a x
A=çrea de la secci—n i
y
=Radio de giro, respecto a y
I
x
=Momento de inercia de la secci—n, respecto a x
I
y
=Momento de inercia de la secci—n, respecto a y
I
t
=Momento de torsi—n de la secci—n
I
a
=M—dulo de alabeo de la secci—n
Tabla 2.A3.5.Perfiles conformados W(omega)
Dimensiones TŽrminos de secci—n Peso
Perfil
h b a e r u c m A
I
x
I
y
I
t
I
a
W
x
W
y
i
x
i
y
p
mm mm mm mm mm mm cm cm cm
2
cm
4
cm
4
cm
4
cm
6
cm
3
cm
3
cm cm kp/m
OF40.2.04040152,02,5272 2,14 3,46 2,72 6,08 9,840,0363 10,5 2,84 2,98 1,50 1,90 2,13P
OF40.2.54040152,52,5267 2,14 3,42 3,34 7,2411,700,0696 12,0 3,38 3,61 1,47 1,88 2,62C
OF40.3.04040153,03,0261 2,14 3,39 3,91 8,1713,300,1170 12,9 3,81 4,17 1,45 1,85 3,07C
OF50.2.05050172,02,5340 2,73 4,38 3,40 12,0018,900,0453 33,2 4,40 4,72 1,88 2,36 2,67P
OF50.2.55050172,52,5335 2,73 4,34 4,19 14,4022,800,0873 38,8 5,29 5,76 1,86 2,33 3,29C
OF50.3.05050173,03,0329 2,73 4,31 4,93 16,5026,100,1480 42,7 6,04 6,70 1,83 2,30 3,87C
OF60.2.06040202,02,5372 3,00 5,19 3,72 18,2015,300,0496 43,0 6,08 4,01 2,21 2,03 2,92P
OF60.2.56040202,52,5367 3,00 5,15 4,59 22,0018,300,0956 50,6 7,34 4,89 2,19 2,00 3,60C
OF60.3.06040203,03,0361 3,00 5,12 5,41 25,3021,000,1620 56,1 8,44 5,68 2,16 1,97 4,25C
OF80.2.58050252,52,5487 4,00 6,95 6,09 52,6038,800,1268198,013,10 8,17 2,94 2,52 4,78P
OF80.3.08050253,03,0481 4,00 6,92 7,21 61,0045,000,2160225,015,30 9,57 2,91 2,50 5,66C
OF100.2.510050302,52,5587 4,83 8,48 7,34 96,9050,700,1529471,018,80 9,66 3,63 2,63 5,76P
OF100.3.010050303,03,0581 4,83 8,45 8,71113,0059,000,2610539,021,9011,30 3,61 2,60 6,94C
u=Per’metro W
x
=M—dulo resistente, respecto a x
c=Posici—n del eje Y W
y
=M—dulo resistente, respecto a y
m=Distancia al centro de esfuerzos cortantes i
x
=Radio de giro, respecto a x
A=çrea de la secci—n i
y
=Radio de giro, respecto a y
I
x
=Momento de inercia de la secci—n, respecto a x
I
y
=Momento de inercia de la secci—n, respecto a y
I
t
=Momento de torsi—n de la secci—n
I
a
=M—dulo de alabeo de la secci—n
NBE EA-95.Estructuras de acero en edificaci—n 90
Tabla 2.A3.6.Perfiles conformados Z
Dimensiones Posici—n de los ejes TŽrminos de secci—n Peso
Perfil
hb
1
b
2
a
1
a
2
e ru c
1
c
2
v
1
v
2
w
1
w
2
tga A I
x
I
y
I
xy
I
z
I
h
W
x
W
y
W
z
W
h
i
x
i
y
i
z
i
h
P
mmmmmmmmmmmmmmmm cm cm cm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cm
3
cm
3
cm cm cm cm kg/m
ZF100.2.0100605320172,02,54764,810,182,812,556,957,180,8674,7276,440,842,810512,314,77,2514,63,944,022,944,721,61 3,70P
ZF100.2.5100605320172,52,54724,810,152,802,546,917,140,6625,8493,549,352,012814,918,08,8117,94,784,002,914,681,60 4,58C
ZF100.3.0100605320173,03,04674,810,132,772,516,857,090,6576,91109,056,860,314917,221,010,2021,05,513,972,874,641,58 5,42C
ZF120.2.0120605320172,02,55165,790,162,792,537,577,860,5105,12117,040,852,214314,218,87,2318,24,294,772,825,291,67 4,02P
ZF120.2.5120605320172,52,55125,790,132,782,517,537,820,5056,34143,049,363,517517,223,08,7822,45,214,752,795,251,65 4,98C
ZF120.3.0120605320173,03,05075,790,112,752,487,477,770,5017,51167,056,873,820419,926,910,2026,36,014,722,755,211,63 5,89C
ZF140.2.0140605320172,02,55566,770,142,732,468,278,610,4075,52167,040,861,719215,723,17,2122,34,565,502,725,901,69 4,33P
ZF140.2.5140605320172,52,55526,770,112,722,458,238,580,4046,84205,049,475,123519,128,48,7627,45,545,482,695,871,67 5,37C
ZF140.3.0140605320173,03,05476,770,092,692,428,198,540,4008,11240,056,987,227522,033,210,1032,26,395,442,655,831,65 6,36C
ZF160.2.0160605320172,02,55967,750,122,652,399,049,430,3365,92229,040,971,125217,027,77,2026,84,786,212,636,531,69 4,65P
ZF160.2.5160605320172,52,55927,750,102,642,382,389,400,3337,34281,049,486,631020,634,08,7432,95,806,192,596,501,67 5,76C
ZF160.3.0160605320173,03,05877,750,072,622,368,969,360,3298,71330,056,9101,036323,840,010,1038,86,706,152,566,451,65 6,84C
ZF180.2.0180605320172,02,56368,730,112,582,329,8510,300,2846,32302,040,980,632518,032,67,1831,64,956,912,547,171,69 4,96P
ZF180.2.5180605320172,52,56328,730,082,562,319,8210,300,2817,84371,049,498,139921,940,18,7238,96,016,882,517,131,67 6,15C
ZF180.3.0180605320173,03,06278,730,062,542,299,7810,200,2789,31436,056,9114,046825,347,110,1045,86,946,852,477,091,65 7,31C
ZF200.2.0200807025222,02,57709,680,203,583,2311,6012,000,3667,66473,097,3159,053139,145,812,8044,18,397,853,568,322,26 6,01P
ZF200.2.5200807025222,52,57669,680,183,573,2211,5012,000,3649,51583,0119,0195,065447,856,515,7054,410,307,833,538,292,24 7,47C
ZF200.3.0200807025223,03,07619,680,153,543,1911,5012,000,36111,30688,0138,0228,077055,866,618,3064,412,007,803,498,252,22 8,88C
ZF225.2.5225807025222,52,581610,900,163,473,1312,5013,100,30710,10769,0119,0220,083650,966,315,6064,110,608,713,429,082,24 7,96P
ZF225.3.0225807025223,03,081110,900,133,443,1012,5013,000,30412,10908,0138,0258,098759,478,318,3075,812,408,673,389,042,22 9,47C
ZF225.4.0225807025224,06,079210,900,083,343,0012,4012,900,29915,701155,0169,0323,0125173,099,522,5097,015,208,583,298,932,1612,30C
ZF250.2.5250807025222,52,586612,100,143,373,0313,6014,100,26410,80986,0119,0246,0105153,676,715,6074,311,009,573,329,882,23 8,45P
ZF250.3.0250807025223,03,086112,100,123,343,0113,5014,100,26212,801166,0138,0289,0124162,690,718,2088,012,809,543,289,842,2110,10C
ZF250.4.0250807025224,06,084212,100,063,252,9213,4014,000,25616,701486,0169,0361,0157976,9115,022,50113,015,709,443,199,722,1513,10C
ZF275.2.5275807025222,52,591613,400,133,272,9514,7015,300,23011,401237,0119,0272,0130056,087,615,6085,211,2010,403,2310,702,22 8,94P
ZF275.3.0275807025223,03,091113,400,103,252,9314,6015,200,22813,601464,0138,0319,0153665,4104,018,20101,013,1010,403,1910,602,2010,70C
ZF275.4.0275807025224,06,089213,400,053,162,8414,5015,100,22317,701869,0170,0399,0195880,4132,022,50129,016,1010,303,1010,502,1313,90C
ZF300.2.5300807025222,52,596614,600,113,182,8615,8016,400,20812,001524,0119,0298,0158558,299,015,6096,811,5011,303,1411,502,20 9,43P
ZF300.3.0300807025223,03,096114,600,093,162,8415,7016,400,20114,301804,0138,0349,0187467,9117,018,20114,013,4011,203,1111,402,4811,20C
ZF300.4.0300807025224,06,094214,600,043,072,7615,6016,300,19718,702306,0170,0437,0239483,6150,022,40147,016,4011,103,0111,302,1214,70C
u=Per’metro W
y
=M—dulo resistente, respecto a y
A=çrea de la secci—n W
z
=M—dulo resistente, respecto a z
I
x
=Momento de inercia de la secci—n, respecto a x W
h
=M—dulo resistente, respecto a h
I
y
=Momento de inercia de la secci—n, respecto a y i
x
=Radio de giro, respecto a x
I
xy
=Momento de inercia de la secci—n, respecto a x, y i
y
=Radio de giro, respecto a y
I
z
=Momento de inercia de la secci—n, respecto a z i
z
=Radio de giro, respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h i
h
=Radio de giro, respecto a h
W
x
=M—dulo resistente, respecto a x
Tabla 2.A3.6.Perfiles conformados Z
Dimensiones Posici—n de los ejes TŽrminos de secci—n Peso
Perfil
hb
1
b
2
a
1
a
2
e ru c
1
c
2
v
1
v
2
w
1
w
2
tga A I
x
I
y
I
xy
I
z
I
h
W
x
W
y
W
z
W
h
i
x
i
y
i
z
i
h
P
mmmmmmmmmmmmmmmm cm cm cm cm cm cm cm cm
2
cm
4
cm
4
cm
4
cm
4
cm
4
cm
3
cm
3
cm
3
cm
3
cm cm cm cm kg/m
ZF100.2.0100605320172,02,54764,810,182,812,556,957,180,8674,7276,440,842,810512,314,77,2514,63,944,022,944,721,61 3,70P
ZF100.2.5100605320172,52,54724,810,152,802,546,917,140,6625,8493,549,352,012814,918,08,8117,94,784,002,914,681,60 4,58C
ZF100.3.0100605320173,03,04674,810,132,772,516,857,090,6576,91109,056,860,314917,221,010,2021,05,513,972,874,641,58 5,42C
ZF120.2.0120605320172,02,55165,790,162,792,537,577,860,5105,12117,040,852,214314,218,87,2318,24,294,772,825,291,67 4,02P
ZF120.2.5120605320172,52,55125,790,132,782,517,537,820,5056,34143,049,363,517517,223,08,7822,45,214,752,795,251,65 4,98C
ZF120.3.0120605320173,03,05075,790,112,752,487,477,770,5017,51167,056,873,820419,926,910,2026,36,014,722,755,211,63 5,89C
ZF140.2.0140605320172,02,55566,770,142,732,468,278,610,4075,52167,040,861,719215,723,17,2122,34,565,502,725,901,69 4,33P
ZF140.2.5140605320172,52,55526,770,112,722,458,238,580,4046,84205,049,475,123519,128,48,7627,45,545,482,695,871,67 5,37C
ZF140.3.0140605320173,03,05476,770,092,692,428,198,540,4008,11240,056,987,227522,033,210,1032,26,395,442,655,831,65 6,36C
ZF160.2.0160605320172,02,55967,750,122,652,399,049,430,3365,92229,040,971,125217,027,77,2026,84,786,212,636,531,69 4,65P
ZF160.2.5160605320172,52,55927,750,102,642,382,389,400,3337,34281,049,486,631020,634,08,7432,95,806,192,596,501,67 5,76C
ZF160.3.0160605320173,03,05877,750,072,622,368,969,360,3298,71330,056,9101,036323,840,010,1038,86,706,152,566,451,65 6,84C
ZF180.2.0180605320172,02,56368,730,112,582,329,8510,300,2846,32302,040,980,632518,032,67,1831,64,956,912,547,171,69 4,96P
ZF180.2.5180605320172,52,56328,730,082,562,319,8210,300,2817,84371,049,498,139921,940,18,7238,96,016,882,517,131,67 6,15C
ZF180.3.0180605320173,03,06278,730,062,542,299,7810,200,2789,31436,056,9114,046825,347,110,1045,86,946,852,477,091,65 7,31C
ZF200.2.0200807025222,02,57709,680,203,583,2311,6012,000,3667,66473,097,3159,053139,145,812,8044,18,397,853,568,322,26 6,01P
ZF200.2.5200807025222,52,57669,680,183,573,2211,5012,000,3649,51583,0119,0195,065447,856,515,7054,410,307,833,538,292,24 7,47C
ZF200.3.0200807025223,03,07619,680,153,543,1911,5012,000,36111,30688,0138,0228,077055,866,618,3064,412,007,803,498,252,22 8,88C
ZF225.2.5225807025222,52,581610,900,163,473,1312,5013,100,30710,10769,0119,0220,083650,966,315,6064,110,608,713,429,082,24 7,96P
ZF225.3.0225807025223,03,081110,900,133,443,1012,5013,000,30412,10908,0138,0258,098759,478,318,3075,812,408,673,389,042,22 9,47C
ZF225.4.0225807025224,06,079210,900,083,343,0012,4012,900,29915,701155,0169,0323,0125173,099,522,5097,015,208,583,298,932,1612,30C
ZF250.2.5250807025222,52,586612,100,143,373,0313,6014,100,26410,80986,0119,0246,0105153,676,715,6074,311,009,573,329,882,23 8,45P
ZF250.3.0250807025223,03,086112,100,123,343,0113,5014,100,26212,801166,0138,0289,0124162,690,718,2088,012,809,543,289,842,2110,10C
ZF250.4.0250807025224,06,084212,100,063,252,9213,4014,000,25616,701486,0169,0361,0157976,9115,022,50113,015,709,443,199,722,1513,10C
ZF275.2.5275807025222,52,591613,400,133,272,9514,7015,300,23011,401237,0119,0272,0130056,087,615,6085,211,2010,403,2310,702,22 8,94P
ZF275.3.0275807025223,03,091113,400,103,252,9314,6015,200,22813,601464,0138,0319,0153665,4104,018,20101,013,1010,403,1910,602,2010,70C
ZF275.4.0275807025224,06,089213,400,053,162,8414,5015,100,22317,701869,0170,0399,0195880,4132,022,50129,016,1010,303,1010,502,1313,90C
ZF300.2.5300807025222,52,596614,600,113,182,8615,8016,400,20812,001524,0119,0298,0158558,299,015,6096,811,5011,303,1411,502,20 9,43P
ZF300.3.0300807025223,03,096114,600,093,162,8415,7016,400,20114,301804,0138,0349,0187467,9117,018,20114,013,4011,203,1111,402,4811,20C
ZF300.4.0300807025224,06,094214,600,043,072,7615,6016,300,19718,702306,0170,0437,0239483,6150,022,40147,016,4011,103,0111,302,1214,70C
u=Per’metro W
y
=M—dulo resistente, respecto a y
A=çrea de la secci—n W
z
=M—dulo resistente, respecto a z
I
x
=Momento de inercia de la secci—n, respecto a x W
h
=M—dulo resistente, respecto a h
I
y
=Momento de inercia de la secci—n, respecto a y i
x
=Radio de giro, respecto a x
I
xy
=Momento de inercia de la secci—n, respecto a x, y i
y
=Radio de giro, respecto a y
I
z
=Momento de inercia de la secci—n, respecto a z i
z
=Radio de giro, respecto a z
I
h
=Momento de inercia de la secci—n, respecto a h i
h
=Radio de giro, respecto a h
W
x
=M—dulo resistente, respecto a x
91 Anejos de la Parte 2
Tabla 2.A3.7.Placa ondulada
Dimensiones TŽrminos de secci—n Peso
Placa
e u A
I W i p
mm mm cm
2
cm
4
cm
3
cm kp/m
2O.0.5 0,5 2.000 5,00 2,00 2,22 0,63 4,38 C
O.0.6 0,6 2.000 6,00 2,38 2,64 0,63 5,20 C
O.0.8 0,8 2.000 8,00 3,70 4,11 0,68 7,00 C
O.1.0 1,0 2.000 10,00 4,65 5,16 0,68 8,77 C
O.1.2 1,2 2.000 12,00 5,60 6,22 0,68 10,50 C
u=Per’metro de la secci—n
A=çrea de la secci—n
I=Momento de inercia
W=M—dulo resistente de la secci—n
i=1:A. Radio de giro
Tabla 2.A3.8.Placa grecada
Dimensiones TŽrminos de secci—n Peso
Placa
e u A
I W i p
mm mm cm
2
cm
4
cm
3
cm kp/m
2G.0.5 0,5 2.300 5,25 11,9 6,28 1,51 5,89 C
G.0.6 0,6 2.300 6,30 14,3 7,53 1,51 7,07 C
G.0.8 0,8 2.300 8,40 19,0 9,94 1,51 9,42 C
G.1.0 1,0 2.300 10,50 23,7 12,30 1,50 11,80 C
G.1.2 1,2 2.300 12,60 28,4 14,70 1,50 14,10 C
u=Per’metro de la secci—n
A=çrea de la secci—n
I=Momento de inercia
W=M—dulo resistente de la secci—n
i=1:A. Radio de giro
Tabla 2.A3.7.Placa ondulada
Dimensiones TŽrminos de secci—n Peso
Placa
e u A
I W i p
mm mm cm
2
cm
4
cm
3
cm kp/m
2O.0.5 0,5 2.000 5,00 2,00 2,22 0,63 4,38 C
O.0.6 0,6 2.000 6,00 2,38 2,64 0,63 5,20 C
O.0.8 0,8 2.000 8,00 3,70 4,11 0,68 7,00 C
O.1.0 1,0 2.000 10,00 4,65 5,16 0,68 8,77 C
O.1.2 1,2 2.000 12,00 5,60 6,22 0,68 10,50 C
u=Per’metro de la secci—n
A=çrea de la secci—n
I=Momento de inercia
W=M—dulo resistente de la secci—n
i=1:A. Radio de giro
Tabla 2.A3.8.Placa grecada
Dimensiones TŽrminos de secci—n Peso
Placa
e u A
I W i p
mm mm cm
2
cm
4
cm
3
cm kp/m
2G.0.5 0,5 2.300 5,25 11,9 6,28 1,51 5,89 C
G.0.6 0,6 2.300 6,30 14,3 7,53 1,51 7,07 C
G.0.8 0,8 2.300 8,40 19,0 9,94 1,51 9,42 C
G.1.0 1,0 2.300 10,50 23,7 12,30 1,50 11,80 C
G.1.2 1,2 2.300 12,60 28,4 14,70 1,50 14,10 C
u=Per’metro de la secci—n
A=çrea de la secci—n
I=Momento de inercia
W=M—dulo resistente de la secci—n
i=1:A. Radio de giro
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