Matching
Match the term to its correct definition.
Premises:
hardening of a material through a chemical or light-activated response
reproduction of a prepared tooth
amount of change in form that takes place during heat exposure
ability of the material to resist fracture
period of time when material assumes shape but remains pliable
submersion into water
maximum amount of stress a material can withstand without deformation
mixing of mercury with other alloy material to form an amalgam
absorption of water
time period when the material can be manipulated without adverse effect
giving off water
ability of a material to return to its original form when stress is removed
tendency of metals to produce an electrical charge when in contact with each other
ability of the material to transmit heat
taking on water
ability to withstand deformation without fracture while undergoing maximum compression stress
maintains storage life
hue, chroma, value
ability of material to withstand permanent deformation without a fracture under elongation stress
period of time when the material becomes as hard as it will be
force of the union of one substance with another
slow bending of material under its own weight
maximum amount of resistance before penetration or scratching can occur
tendency of amalgam to deform under constant pressure
amount of pulling stress required to rupture the material
chemical release of heat
Responses:
working time
coefficient of thermal expansion
exothermic
bonding
hygroscopic
thermal conductivity
hydrophilic
inhibitor
tensile strength
flow
trituration
hardness
malleability
hydrophobia
cure process
galvanization
creep
ductility
setting time
die
imbibition
toughness
yield strength
elasticity
initial set
color
Correct Answer:
Premises:
Responses:
hardening of a material through a chemical or light-activated response
reproduction of a prepared tooth
amount of change in form that takes place during heat exposure
ability of the material to resist fracture
period of time when material assumes shape but remains pliable
submersion into water
maximum amount of stress a material can withstand without deformation
mixing of mercury with other alloy material to form an amalgam
absorption of water
time period when the material can be manipulated without adverse effect
giving off water
ability of a material to return to its original form when stress is removed
tendency of metals to produce an electrical charge when in contact with each other
ability of the material to transmit heat
taking on water
ability to withstand deformation without fracture while undergoing maximum compression stress
maintains storage life
hue, chroma, value
ability of material to withstand permanent deformation without a fracture under elongation stress
period of time when the material becomes as hard as it will be
force of the union of one substance with another
slow bending of material under its own weight
maximum amount of resistance before penetration or scratching can occur
tendency of amalgam to deform under constant pressure
amount of pulling stress required to rupture the material
chemical release of heat
Premises:
hardening of a material through a chemical or light-activated response
reproduction of a prepared tooth
amount of change in form that takes place during heat exposure
ability of the material to resist fracture
period of time when material assumes shape but remains pliable
submersion into water
maximum amount of stress a material can withstand without deformation
mixing of mercury with other alloy material to form an amalgam
absorption of water
time period when the material can be manipulated without adverse effect
giving off water
ability of a material to return to its original form when stress is removed
tendency of metals to produce an electrical charge when in contact with each other
ability of the material to transmit heat
taking on water
ability to withstand deformation without fracture while undergoing maximum compression stress
maintains storage life
hue, chroma, value
ability of material to withstand permanent deformation without a fracture under elongation stress
period of time when the material becomes as hard as it will be
force of the union of one substance with another
slow bending of material under its own weight
maximum amount of resistance before penetration or scratching can occur
tendency of amalgam to deform under constant pressure
amount of pulling stress required to rupture the material
chemical release of heat
Responses:
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