Truss
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Mar 03, 2015
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About This Presentation
Applied Mechanics
Slide Content
TRUSS Page 1
CHAPTER 4
TRUSS
CONTENT OF THE TOPIC:
- Definition of truss
- Types of truss
o Perfect Truss
o Imperfect Truss
Deficient Truss
Redundant Truss
- Assumption made for the analysis of truss
- Analysis of truss
- Types of methods of analysis
o Method of joint
o Method of section and
o Graphical method
- Problems on Method of joint and Method of section
Definition of Truss:
A truss is defined as a system of two force members connected in such a way that a rigid
structure is formed. Truss is made up of two force members.
Types of Trusses:
CHAPTER 4
TRUSS
CONTENT OF THE TOPIC:
- Definition of truss
- Types of truss
o Perfect Truss
o Imperfect Truss
Deficient Truss
Redundant Truss
- Assumption made for the analysis of truss
- Analysis of truss
- Types of methods of analysis
o Method of joint
o Method of section and
o Graphical method
- Problems on Method of joint and Method of section
Definition of Truss:
A truss is defined as a system of two force members connected in such a way that a rigid
structure is formed. Truss is made up of two force members.
Types of Trusses:
TRUSS Page 2
Perfect Truss:
A perfect truss is that, which is made up of members just sufficient to keep it in
equilibrium, when loaded, without any change in its shape. Such structure satisfies
following equation.
n = 2j-3
where,
n = number of members
j = number of joints
Eg.
Basic Perfect Truss
Here n = 3 and j = 3
3 = (2 x 3) – 3
3= 3
Perfect Truss
Here n = 5 and j = 4
5 = (2 x 4) – 3
5= 5
Deficient Truss:
In such truss the numbers of members are less than (2j-3). Such trusses are unable to carry
any loads. So such trusses are unstable which undergo deformation.
Eg.
Here n = 4 and j = 4
4 = (2 x 4) – 3
4 < 5
Redundant Truss:
In such truss the numbers of members are more than (2j-3). In such trusses the members are
more than required which is sufficient to carry loads. They don’t undergo any deformation.
Perfect Truss:
A perfect truss is that, which is made up of members just sufficient to keep it in
equilibrium, when loaded, without any change in its shape. Such structure satisfies
following equation.
n = 2j-3
where,
n = number of members
j = number of joints
Eg.
Basic Perfect Truss
Here n = 3 and j = 3
3 = (2 x 3) – 3
3= 3
Perfect Truss
Here n = 5 and j = 4
5 = (2 x 4) – 3
5= 5
Deficient Truss:
In such truss the numbers of members are less than (2j-3). Such trusses are unable to carry
any loads. So such trusses are unstable which undergo deformation.
Eg.
Here n = 4 and j = 4
4 = (2 x 4) – 3
4 < 5
Redundant Truss:
In such truss the numbers of members are more than (2j-3). In such trusses the members are
more than required which is sufficient to carry loads. They don’t undergo any deformation.
TRUSS Page 3
Eg.
Here n = 6 and j = 4
6 = (2 x 4) – 3
6 > 5
Member:
The straight component bars of the trusses joined at the ends by the pins are known as
members.
Two force member:
When a member is subjected to no couples and forces are applied at only two ends of the
member is called as two force member or two point force member.
Arrow away from joints Arrow towards the joints
or or
Arrow facing towards each other Arrow away from each other
Frame:
A frame is structure of combination of two force members and three force members or
multi-force members as shown in Fig. 2.
Figure 2
Eg.
Here n = 6 and j = 4
6 = (2 x 4) – 3
6 > 5
Member:
The straight component bars of the trusses joined at the ends by the pins are known as
members.
Two force member:
When a member is subjected to no couples and forces are applied at only two ends of the
member is called as two force member or two point force member.
Arrow away from joints Arrow towards the joints
or or
Arrow facing towards each other Arrow away from each other
Frame:
A frame is structure of combination of two force members and three force members or
multi-force members as shown in Fig. 2.
Figure 2
TRUSS Page 4
Assumption made for the analysis of truss
1) All the members are pin jointed.
2) All the members are assumed to two force members.
3) The truss is loaded at the joints only.
4) The self weight of the truss is considered as negligible in comparison with the other
external forces acting on a truss.
5) The cross section of the members of trusses is uniform.
Analysis of Truss:
To analyze a truss is nothing but a determination of the reactions at the supports and the
forces in the members of the frame.
STEPS FOR MEHOD OF SECTION
Method of Section:
1) When the forces in a few members of a truss are to be determined, then the Method
of Section is mostly used.
2) In this method, a section line is passed through the members, in which forces are to
be determined.
3) The section line should be drawn in such a way that, it does not cut more than three
members in which forces are unknown. If force in the members BC, GC and GF i.e.
FBC, FGC, and FGF respectively we want to calculate. Then pass a section line 1-1
through these members.
4) The part of the truss, on any one side of the section line, is treated as a free body in
equilibrium under the action of external forces on that part and forces in the
members cut by the section line. See Fig. (1) and (2).
Assumption made for the analysis of truss
1) All the members are pin jointed.
2) All the members are assumed to two force members.
3) The truss is loaded at the joints only.
4) The self weight of the truss is considered as negligible in comparison with the other
external forces acting on a truss.
5) The cross section of the members of trusses is uniform.
Analysis of Truss:
To analyze a truss is nothing but a determination of the reactions at the supports and the
forces in the members of the frame.
STEPS FOR MEHOD OF SECTION
Method of Section:
1) When the forces in a few members of a truss are to be determined, then the Method
of Section is mostly used.
2) In this method, a section line is passed through the members, in which forces are to
be determined.
3) The section line should be drawn in such a way that, it does not cut more than three
members in which forces are unknown. If force in the members BC, GC and GF i.e.
FBC, FGC, and FGF respectively we want to calculate. Then pass a section line 1-1
through these members.
4) The part of the truss, on any one side of the section line, is treated as a free body in
equilibrium under the action of external forces on that part and forces in the
members cut by the section line. See Fig. (1) and (2).
TRUSS Page 5
Fig.1 Fig.2
5) The unknown forces in the members are then calculated by using the equations of
equilibrium.
∑M = 0, ∑Fy = 0 ∑FX = 0
Fig.1 Fig.2
5) The unknown forces in the members are then calculated by using the equations of
equilibrium.
∑M = 0, ∑Fy = 0 ∑FX = 0
TRUSS Page 6
PROBLEMS ON ANALYSIS OF PERFECT TRUSSES
1. Find the forces in the members BC, GC and GF for the truss shown in following
Fig.
PROBLEMS ON ANALYSIS OF PERFECT TRUSSES
1. Find the forces in the members BC, GC and GF for the truss shown in following
Fig.
TRUSS Page 7
2. Find the forces in all members for the truss shown in following Fig.
2. Find the forces in all members for the truss shown in following Fig.
TRUSS Page 8
3. A cantilever truss of span 4.5 m is shown in Figure below. Find the forces in all the
members of the truss.
3. A cantilever truss of span 4.5 m is shown in Figure below. Find the forces in all the
members of the truss.
TRUSS Page 9
4. Find the forces in various members of truss as shown below. (May 2007 12 Mks)
4. Find the forces in various members of truss as shown below. (May 2007 12 Mks)
TRUSS Page 10
5. Find the forces in the members DE, LE, KN and EF for the truss shown in following
Fig.
5. Find the forces in the members DE, LE, KN and EF for the truss shown in following
Fig.
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