elastomeric Impression DENTAL material
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Jun 04, 2014
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About This Presentation
elastomeric Impression DENTAL material
Slide Content
Elastomeric Impression
Materials
Materials
Elastomeric =
Rubber-like polymers that show an
elastic behavior at the time of load
application
These polymer molecules have
weak interaction in between
(Van der Wall forces), although
they are tied together in 3D
network.
On stretching (on loading) chains
uncoil
At rest (off loading) chains snap back
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Rubber-like polymers that show an
elastic behavior at the time of load
application
These polymer molecules have
weak interaction in between
(Van der Wall forces), although
they are tied together in 3D
network.
On stretching (on loading) chains
uncoil
At rest (off loading) chains snap back
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Higher tear strength
More stable dimensionally in
storage
(No Synersis, Imbibation or Evaporation)
Ability to be electroplated
But, Quite Expensive !!!!But, Quite Expensive !!!!
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More stable dimensionally in
storage
(No Synersis, Imbibation or Evaporation)
Ability to be electroplated
But, Quite Expensive !!!!But, Quite Expensive !!!!
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Elastomeric
impression
materials
Polysulfide
(hydrophobic)
Silicones
Polyether
(hydrophilic)
Condensation
Silicone
(hydrophobic)
Addition
silicone
Hydrophobic
type
Hydrophilic
typeF
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impression
materials
Polysulfide
(hydrophobic)
Silicones
Polyether
(hydrophilic)
Condensation
Silicone
(hydrophobic)
Addition
silicone
Hydrophobic
type
Hydrophilic
typeF
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Materials’
Consistency
Light
Medium
Heavy
Putty
Silicone materials only
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Materials’
Consistency
Light
Medium
Heavy
Putty
Silicone materials only
Polysulfide Rubber Polysulfide Rubber
Impression MaterialImpression Material
Impression MaterialImpression Material
CHEMISTRY
A. Composition:
Base paste
1. LMW Polysulfide with two terminal and one pendant
SH groups
2. Fillers (Titanium dioxide)
3. Plasticizer (Dibutyl phethalate)
Catalyst paste
1. Lead dioxide (Brown) or organic peroxides (Gray)
reactor
2. Fillers (Titanium dioxide)
3. Plasticizer (Dibutyl phethalate)
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A. Composition:
Base paste
1. LMW Polysulfide with two terminal and one pendant
SH groups
2. Fillers (Titanium dioxide)
3. Plasticizer (Dibutyl phethalate)
Catalyst paste
1. Lead dioxide (Brown) or organic peroxides (Gray)
reactor
2. Fillers (Titanium dioxide)
3. Plasticizer (Dibutyl phethalate)
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B. Setting Reaction:
+ Pb+H
2
o
HS----R ----SH HS----R ----SH
SH SH+
PbO
2
+ Pb+H
2
o
HS----R ----SH HS----R ----SH
SH SH+
PbO
2
HS----R ----SH HS----R ----SH
SH SH+
PbO
2
Condensation polymerization
(exothermic + shrinkage) with
releasing of H
2
O as reaction
by-product
It occurs as a series of simple
oxidation reactions
Oxidation of terminal SH
groups polymer chains
Oxidation of pendent SH
groups Cross-linking
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B. Setting Reaction:
+ Pb+H
2
o
HS----R ----SH HS----R ----SH
SH SH+
PbO
2
+ Pb+H
2
o
HS----R ----SH HS----R ----SH
SH SH+
PbO
2
HS----R ----SH HS----R ----SH
SH SH+
PbO
2
Condensation polymerization
(exothermic + shrinkage) with
releasing of H
2
O as reaction
by-product
It occurs as a series of simple
oxidation reactions
Oxidation of terminal SH
groups polymer chains
Oxidation of pendent SH
groups Cross-linking
Material sets via condensation polymerization
reaction
Water is the reaction by-product
Evaporation of water + polymerization shrinkage
Dimensional changes in storage
Water could cause air bubbles in stone cast
Polysulfide is hydrophobic, and can be electroplated
Lead dioxide is toxic and has bad smell, so it
has been replaced in recent products by
peroxide compounds
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OBVIOUS CHARACTERS
reaction
Water is the reaction by-product
Evaporation of water + polymerization shrinkage
Dimensional changes in storage
Water could cause air bubbles in stone cast
Polysulfide is hydrophobic, and can be electroplated
Lead dioxide is toxic and has bad smell, so it
has been replaced in recent products by
peroxide compounds
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OBVIOUS CHARACTERS
Condensation SiliconeCondensation Silicone
Impression MaterialImpression Material
Impression MaterialImpression Material
CHEMISTRY
A. Composition:
Base paste
1. LMW silicone polymer with terminal OH groups
2. Fillers (Colloidal silica or titanium dioxide) (white)
Catalyst paste
1. Alkyl silicate (Cross linking)
2. Tin dilaurate or Stannous octoate (Activator)
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A. Composition:
Base paste
1. LMW silicone polymer with terminal OH groups
2. Fillers (Colloidal silica or titanium dioxide) (white)
Catalyst paste
1. Alkyl silicate (Cross linking)
2. Tin dilaurate or Stannous octoate (Activator)
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HO Si-O -SiOH +
CH
3
CH
3CH
3
CH
3
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
C
2H
5OH+
HMW Silicon Polymer Ethyl Alcohol
DimethylSiloxane Alkyl Silicate
Stanous
Octoate
HO Si-O -SiOH +
CH
3
CH
3CH
3
CH
3
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
C
2H
5OH+
HMW Silicon Polymer Ethyl Alcohol
DimethylSiloxane Alkyl Silicate
Stanous
Octoate
HO Si-O -SiOH +
CH
3
CH
3CH
3
CH
3
HO Si-O -SiOH +
CH
3
CH
3CH
3
CH
3
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
C
2H
5OH+
HMW Silicon Polymer Ethyl Alcohol
DimethylSiloxane Alkyl Silicate
Stanous
Octoate
B. Setting Reaction:
Condensation poly-merization (exothermic + shrinkage)
releasing C
2
H
5
OH as reaction by-product
It occurs as a series of cross-linkage of siloxane polymer
to alkyl silicate in presence of the activator, to form a 3D
polymer networkC
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CH
3
CH
3CH
3
CH
3
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
C
2H
5OH+
HMW Silicon Polymer Ethyl Alcohol
DimethylSiloxane Alkyl Silicate
Stanous
Octoate
HO Si-O -SiOH +
CH
3
CH
3CH
3
CH
3
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
C
2H
5OH+
HMW Silicon Polymer Ethyl Alcohol
DimethylSiloxane Alkyl Silicate
Stanous
Octoate
HO Si-O -SiOH +
CH
3
CH
3CH
3
CH
3
HO Si-O -SiOH +
CH
3
CH
3CH
3
CH
3
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
Si
C
2
H
5
OC
2
H
5
O
C
2H
5O C
2H
5O
C
2H
5OH+
HMW Silicon Polymer Ethyl Alcohol
DimethylSiloxane Alkyl Silicate
Stanous
Octoate
B. Setting Reaction:
Condensation poly-merization (exothermic + shrinkage)
releasing C
2
H
5
OH as reaction by-product
It occurs as a series of cross-linkage of siloxane polymer
to alkyl silicate in presence of the activator, to form a 3D
polymer networkC
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Material sets via condensation polymerization
reaction
Ethyl alcohol is the reaction by-product
Evaporation of alcohol + polymerization shrinkage
Dimensional changes in storage > that of polysulfide
Alcohol could cause air bubbles in stone cast
Cond. silicone is hydrophobic, and can be
electroplated either with silver or copper
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OBVIOUS CHARACTERS
reaction
Ethyl alcohol is the reaction by-product
Evaporation of alcohol + polymerization shrinkage
Dimensional changes in storage > that of polysulfide
Alcohol could cause air bubbles in stone cast
Cond. silicone is hydrophobic, and can be
electroplated either with silver or copper
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OBVIOUS CHARACTERS
Addition SiliconesAddition Silicones
Impression MaterialsImpression Materials
Impression MaterialsImpression Materials
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CHEMISTRY
A. Composition:
Base paste
1. Poly methyl hydrogen siloxane (Hydried or silane
terminated silicone)
2. Other Siloxane pre-polymers
3. Fillers
Catalyst paste
1. Divinyl poly(dimethyl siloxane)
2. Platinum salt activator (Chloroplatinic acid)
3. Siloxane pre-polymers
4. Fillers
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CHEMISTRY
A. Composition:
Base paste
1. Poly methyl hydrogen siloxane (Hydried or silane
terminated silicone)
2. Other Siloxane pre-polymers
3. Fillers
Catalyst paste
1. Divinyl poly(dimethyl siloxane)
2. Platinum salt activator (Chloroplatinic acid)
3. Siloxane pre-polymers
4. Fillers
B. Setting Reaction:
Addition polymerization (exothermic + shrinkage) with no
release of by-product
It occurs as a series of cross-linkage between vinyl-
terminated silicon and silane-terminated (hydried) silicon
molecules, in presence of the catalyst (platinum salt) to
form a 3D polymer network
A side reaction (Releasing hydrogen gas Air bubbles in
gypsum cast) may occur if :
1. No balance between vinyl siloxane and the hydried silicone
2. Moisture react with hydrides of the base polymer
Adding noble metal (platinum or palladium) to the
composition will act as hydrogen absorber
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Addition polymerization (exothermic + shrinkage) with no
release of by-product
It occurs as a series of cross-linkage between vinyl-
terminated silicon and silane-terminated (hydried) silicon
molecules, in presence of the catalyst (platinum salt) to
form a 3D polymer network
A side reaction (Releasing hydrogen gas Air bubbles in
gypsum cast) may occur if :
1. No balance between vinyl siloxane and the hydried silicone
2. Moisture react with hydrides of the base polymer
Adding noble metal (platinum or palladium) to the
composition will act as hydrogen absorber
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Adding surfactants (surface tension reducing
agents) to the composition of add. silicone help
turns the material to be hydrophilic (water lover)
Advantages:
1. Better wetting of soft tissue registration of better details
2. ¯ Air bubbles in gypsum cast
Disadvantages:
1. Difficult to be electroplated
2. Setting reaction could be retarded in presence of sulfur (in
latex gloves) or sulfate compounds (in gingival retraction
cords)
HYDROPHILIC SILICONE
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agents) to the composition of add. silicone help
turns the material to be hydrophilic (water lover)
Advantages:
1. Better wetting of soft tissue registration of better details
2. ¯ Air bubbles in gypsum cast
Disadvantages:
1. Difficult to be electroplated
2. Setting reaction could be retarded in presence of sulfur (in
latex gloves) or sulfate compounds (in gingival retraction
cords)
HYDROPHILIC SILICONE
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Material sets via Addition polymerization reaction
(No by-product) More dimensionally stable than
condensation-polymerized materials
Hydrogen gas may release from a side reaction in
presence of moisture or imbalance of the reactants.
But, adding noble metal to the composition prevents
the release of hydrogen gas no air bubbles in the
gypsum cast
Add.silicone is hydrophobic and can be
electroplated, however adding of surfactants turns
the material hydrophilic
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OBVIOUS CHARACTERS
(No by-product) More dimensionally stable than
condensation-polymerized materials
Hydrogen gas may release from a side reaction in
presence of moisture or imbalance of the reactants.
But, adding noble metal to the composition prevents
the release of hydrogen gas no air bubbles in the
gypsum cast
Add.silicone is hydrophobic and can be
electroplated, however adding of surfactants turns
the material hydrophilic
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OBVIOUS CHARACTERS
Polyether RubberPolyether Rubber
Impression MaterialImpression Material
Impression MaterialImpression Material
CHEMISTRY
A. Composition:
Base paste
1. LMW polyether with terminal imine groups
2. Filler (colloidal silica)
2. Plasticizer (dibutyl phethalate or glycoether)
Catalyst paste
1. Aromatic sulfonate reactor (Sulfonic acid ester)
2. Fillers
3. Plasticizer
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A. Composition:
Base paste
1. LMW polyether with terminal imine groups
2. Filler (colloidal silica)
2. Plasticizer (dibutyl phethalate or glycoether)
Catalyst paste
1. Aromatic sulfonate reactor (Sulfonic acid ester)
2. Fillers
3. Plasticizer
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CHEMISTRY
B. Reaction: (Cont.d)
Material sets via ring opening addition poly-
merization reaction (No by-product) of imine-
terminated polyether with the aromatic sulfonate
LIGHT-CURED POLYETHER
It is based on polyether-urethane dimethacrylate,
photo-initiator, accelerator, and silicone filler (has
refractive index similar to resin that helps in
maximizing the depth of curing)
This material is no longer be used
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B. Reaction: (Cont.d)
Material sets via ring opening addition poly-
merization reaction (No by-product) of imine-
terminated polyether with the aromatic sulfonate
LIGHT-CURED POLYETHER
It is based on polyether-urethane dimethacrylate,
photo-initiator, accelerator, and silicone filler (has
refractive index similar to resin that helps in
maximizing the depth of curing)
This material is no longer be used
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Material sets via Addition polymerization reaction
(No by-product) More dimensionally stable than
condensation polymerized materials
Set material is so stiff (as a result of high rate of
crosslinking), so tray adhesive must be used to
retain the material within the tray at the time of
removing an impression
Polyether is hydrophilic and can absorb water in
wet condition (swelling), accordingly
Can not be electroplated
should be stored in dry environment to preserve its
dimensional accuracy
OBVIOUS CHARACTERS
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(No by-product) More dimensionally stable than
condensation polymerized materials
Set material is so stiff (as a result of high rate of
crosslinking), so tray adhesive must be used to
retain the material within the tray at the time of
removing an impression
Polyether is hydrophilic and can absorb water in
wet condition (swelling), accordingly
Can not be electroplated
should be stored in dry environment to preserve its
dimensional accuracy
OBVIOUS CHARACTERS
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Comparative Properties Comparative Properties
of Elastomeric Impression of Elastomeric Impression
MaterialsMaterials
of Elastomeric Impression of Elastomeric Impression
MaterialsMaterials
Biological properties:
1. Lead dioxide (polysulfide) is toxic, but following
the manufacturer’s instruction will decrease this
risk
2. Alcohol by-product (cond. Silicone) is irritant to
oral soft tissues
3. Aromatic sulfonate (polyether) is irritant, but
proper mixing will decrease this irritability
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1. Lead dioxide (polysulfide) is toxic, but following
the manufacturer’s instruction will decrease this
risk
2. Alcohol by-product (cond. Silicone) is irritant to
oral soft tissues
3. Aromatic sulfonate (polyether) is irritant, but
proper mixing will decrease this irritability
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Interfacial properties:
1. Hydrophilicity…
Polysulfide, cond. Silicone, & add. Silicone are
hydrophobic
Hydrophilic silicone and polyether are Hydrophilic
2. Compatibility with model and die materials...
Hydrophilic materials can not be electroplated
Polysulfide could be electroplated with silver, while
silicones could be electroplated either with silver or
copper
hydrophobic materials may cause air bubbles in stone
casts
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1. Hydrophilicity…
Polysulfide, cond. Silicone, & add. Silicone are
hydrophobic
Hydrophilic silicone and polyether are Hydrophilic
2. Compatibility with model and die materials...
Hydrophilic materials can not be electroplated
Polysulfide could be electroplated with silver, while
silicones could be electroplated either with silver or
copper
hydrophobic materials may cause air bubbles in stone
casts
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Interfacial properties: (cont.d)
3. Separating media…
There is no need (elastic materials) for separating
medium before pouring the cast
4. Detail reproduction…
Although, hydrophilic materials show better
registration of details than hydrophobic ones,
Polysulfide is the best detail reproducer due to its
higher flow rate
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3. Separating media…
There is no need (elastic materials) for separating
medium before pouring the cast
4. Detail reproduction…
Although, hydrophilic materials show better
registration of details than hydrophobic ones,
Polysulfide is the best detail reproducer due to its
higher flow rate
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Mechanical properties:
1. Flexibility...
Polysulfide > Cond. Silicone > add. Silicone > polyether
2. Flow...
Polysulfide > Cond.silicone > Polyether > Add. Silicone
3. Permanent deformation…
Polysulfide > Cond.silicone > Polyether > Add. Silicone
4. Tear strength…
Polyether > polysulfide > silicones
5. Recovery…
Rubber materials are viscoelastic, so impressions should
be poured 30 min after removal from the patient mouth
in order to get the whole elastic and delayed recovery of
imp.mat.
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1. Flexibility...
Polysulfide > Cond. Silicone > add. Silicone > polyether
2. Flow...
Polysulfide > Cond.silicone > Polyether > Add. Silicone
3. Permanent deformation…
Polysulfide > Cond.silicone > Polyether > Add. Silicone
4. Tear strength…
Polyether > polysulfide > silicones
5. Recovery…
Rubber materials are viscoelastic, so impressions should
be poured 30 min after removal from the patient mouth
in order to get the whole elastic and delayed recovery of
imp.mat.
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Chemical properties:
1. Dimensional changes…
Cond. silicone > polysulfide > Polyether > add silicone
All materials are associated with setting (polymerization)
shrinkage
All condensation polymerized materials are less stable in
storage as a result of evaporation of the reaction by-
product
2. Odor…
Lead dioxide-containing polysulfide has bad smellC
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1. Dimensional changes…
Cond. silicone > polysulfide > Polyether > add silicone
All materials are associated with setting (polymerization)
shrinkage
All condensation polymerized materials are less stable in
storage as a result of evaporation of the reaction by-
product
2. Odor…
Lead dioxide-containing polysulfide has bad smellC
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Practicability:
1. Mixing time... (45 sec.- 1 min.)
2. Working time... (average 5 min.)
3. Setting time... (average 8-12 min)
4. Coast... higher than hydrocolloids
5. Shelf life…storage in refrigerator elongate the
shelf life
6. Disinfection… could be done either by spray or
short immersion technique using NaOCl, Iodofore or
Glutaraldehyde. Care should be expressed with
hydrophilic materials (not immersed for long time)
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1. Mixing time... (45 sec.- 1 min.)
2. Working time... (average 5 min.)
3. Setting time... (average 8-12 min)
4. Coast... higher than hydrocolloids
5. Shelf life…storage in refrigerator elongate the
shelf life
6. Disinfection… could be done either by spray or
short immersion technique using NaOCl, Iodofore or
Glutaraldehyde. Care should be expressed with
hydrophilic materials (not immersed for long time)
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Materials’ ManipulationMaterials’ Manipulation
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Mixing:
1. Using paper pad (Glass slab) and Spatula
Light, medium and heavy consistencies
2. Hand Kneading
Heavy or putty consistency
3. Automixer and Dispenser
Cartridge form only (Light, medium, heavy)
4. Automatic mixing
All consistencies, special electric mixer + special material form
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1. Using paper pad (Glass slab) and Spatula
Light, medium and heavy consistencies
2. Hand Kneading
Heavy or putty consistency
3. Automixer and Dispenser
Cartridge form only (Light, medium, heavy)
4. Automatic mixing
All consistencies, special electric mixer + special material form
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Trays:
1.Stock tray...
Used with heavy and putty consistency
Retention come through; tray perforations, rim locks, or tray
adhesive
2. Special tray…
Used with light and medium consistency
Retention comes from; tray perforations and tray adhesive
3. Wash impression...
Some times heavy or putty impressions act as special tray for
light consistency material
M
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p
u
l
a
t
i
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n
1.Stock tray...
Used with heavy and putty consistency
Retention come through; tray perforations, rim locks, or tray
adhesive
2. Special tray…
Used with light and medium consistency
Retention comes from; tray perforations and tray adhesive
3. Wash impression...
Some times heavy or putty impressions act as special tray for
light consistency material
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Uses:
1. Impression making...
Copper ring impression
Monophase impression
Double mix single phase impression
Double mix double phase impression (over-wash impression)
Closed mouth-double arch impression
2. Occlusal bite registration…
A specially supplied rubber material is used for this purpose
(commonly cartridge form)M
a
n
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p
u
l
a
t
i
o
n
1. Impression making...
Copper ring impression
Monophase impression
Double mix single phase impression
Double mix double phase impression (over-wash impression)
Closed mouth-double arch impression
2. Occlusal bite registration…
A specially supplied rubber material is used for this purpose
(commonly cartridge form)M
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p
u
l
a
t
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Your Comments Your Comments
are appreciatedare appreciated
are appreciatedare appreciated
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