DMS

Question 1

Define fracture

Answer 1

large force causes catastrophic destruction of materials structure

Question 2

Define hardness

Answer 2

ability of surface to resist indentation

Question 3

Define abrasion

Answer 3

material surface removal due to grinding. Loss of material surface layers leads to a roughened surface

Question 4

Define abrasion resistance

Answer 4

The ability to withstand surface layers being removed.

Question 5

Define fatigue

Answer 5

repetitive small forces cause the material to fracture. Most failures are not due to the application of a single load. When repeated loads are applied, small flaws in a material propagate allowing fracture when only a relatively small force is applied

Question 6

Define creep

Answer 6

gradual dimensional change due to repetative small forces

Question 7

Define deformation

Answer 7

an applied force may cause a permanent change in the materials dimension (but not fracture it)

Question 8

Define de-bond

Answer 8

applied forces sufficient to break material to tooth bond

Question 9

Define impact

Answer 9

Large, sudden forces causing fracture

Question 10

List 8 mechanical properties

Answer 10

Hard, strong, rigid, ductile, soft, weak, flexible, brittle

Question 11

List 3 chemical properties

Answer 11

setting mechanism, setting time, corrosive potential

Question 12

List 5 physical properties

Answer 12

viscocity,thermal conductivity, thermal expansion, density, radiodensity

Question 13

What kind of material is alginate?

Answer 13

an elatomeric irreversible hydrocollid

Question 14

what is alginate composed of?

Answer 14

ester salts of alginic acid (either sodium, potassium or triethanolamine alginate)

Question 15

Give a positive and negative point on using porcelain in fixed prosthodontics

Answer 15

positive - porcelain has good aesthetics

negative - microcracks tend to form at the fitting surface, making it prone to mechanical failure

Question 16

Name some characteristics of porcelain

Answer 16

rigid, hard, strong, low tensile strength, tendency to form surface defects, brittle

Question 17

Why are alloys used to support porcelain in crowns?

Answer 17

Metal limits the strain that porcelain experiences

Question 18

describe cold working/work hardening

Answer 18

• producing a change in microstructure, with dislocations becoming concentrated at grain boundaries, but also a change in grain shape
• the properties of the material are altered, becoming harder and stronger with a higher value of yield stress
• ductility is decreased

Question 19

Give three examples of hard working

Answer 19

• the formation of wires - an allow is forced through a series of circular dies of gradually decreasing diameter, resulting in a fibrous grain structure responsible for the springy properties possessed by most wires
• the bending of wires or clasps during the construction and alteration of appliances
• the swaging of stainless steel denture bases

Question 20

what is swaging?

Answer 20

bending an alloy to the required shape

Question 21

what are the components of steel?

Answer 21

• iron
• carbon (less than 2% otherwise steel will be very brittle)
• chromium (improves corrosion resistance)
• Nickle (improves corrosion resistance and strength)

Question 22

what is autenite?

Answer 22

the solid solution of carbon above 723 degrees C

Question 23

what is martensite?

Answer 23

it is formed when the austenitic solid solution is quenched.
It allows insufficient time for the alloy to undergo the transition from austenitic structure to pearlite structure.
This produces the very hard brittle steel; martensite
The brittleness can be reduced by tempering

Question 24

Give two advantages of using stainless steel as a denture base?

Answer 24

• it has high values of modulus of elasticity and proportional limit achieving sufficient rigidity
• it conducts heat rapidly, ensuring the patient retains a normal reflex reaction to hot/cold

Question 25

Give three requirements of stainless steel wires

Answer 25

• spring back ability
• value of stiffness to allow application of a suitable force for tooth movement
• easily joined by soldering or welding without impairing mechanical properties

Question 26

define springiness of a wire

Answer 26

the ability to undergo large deflections without permanent deformation
spring back potential = yield stress/modulus of elasticity

Question 27

What are acrylic resins composed of?

Answer 27

A combination of powder and liquid
POWDER; 
- polymer; polymethylmethacrylate beads
- initiator; a peroxide such as benzoyl peroxide
- Pigments; salts of cadmium, iron or organic dyes
LIQUID
- monomer; methylmethacrylate 
- cross linking agent
- inhibitor
- activator (in self cure materials)

Question 28

With acrylic resin, what are the stages in curing (acrylic polymerisation)?

Answer 28

• Activation; of inhibitor to provide free radicals
• Initiation; free radicals break C=C bond in monomer and transfer free radical
• Propagation; growing polymer chain
• Termination; of polymerisation

Question 29

Name five ideal properties of acrylic

Answer 29

• dimensionally accurate and stable in use
• high softening temperature
• unaffected by oral fluids
• thermal expansion
• low density
• high thermal conductivity
• radiopaque
• non toxic
• colour/translucency
• easy and inexpensive to manufacture
• easy to repair

Question 30

What are the ideal mechanical properties of acrylic?

Answer 30

• High Youngs modulus
• high proportional limit
• high transverse strength
• high fatigue strength
• high impact strength
• high hardness, abrasion resistance

Question 31

Define free radical addition polymerisation

Answer 31

the chemical union of two molecules either the same or different to form a larger molecule without the elimination of a smaller molecule

Question 32

Name five properties of acrylic

Answer 32

• non toxic
• non irritant (if no monomer released)
• unaffected by oral fluids
• mechanical properties are poor (increase in bulk to compensate)
• Fatigue/impact strength; fairly resistant
• High hardness/abrasion resistance
• thermal expansion OK
• Low thermal conductivity
• Low density
• high softening temperature
• dimensionally accurate and stable in use

Question 33

Give the advantages and disadvantages of heat cured vs self cured acrylic

Answer 33

HEAT CURED
- higher molecular weight; stronger
- curing process may cause porosity
SELF CURED
- higher monomer levels (irritant)
- fits cast better but water absorption in mouth makes it oversized
- poorer colour stability

Question 34

What materials are used for primary impressions?

Answer 34

— Impression compound:
i. Non elastic material which records poorer
surface detail and this is why it isn’t used for
definitive impressions. It isn’t cheap to use and
can be messy.
ii. It is good for primary impressions due to the
high Mucocompressive viscosity
— Alginate:
i. Elastic material which means it will flow into
undercuts and can record surface detail for
primary impressions.

Question 35

What materials are used for definitive impressions?

Answer 35

— Silicone:
i. It is dimensionally stable and can be made into
a variety of consistencies which means it
accurately record surface detail
— Polyether/impregum:
i. It is dimensionally stable and has very accurate
recording of surface detail
— Alginate:
i. Can also be used for master impressions as if is
elastic so can flow into undercuts if they are
present.

Question 36

What is gypsum?

Answer 36

• Gypsum plaster is calcium sulphate dihydrate which is used to
  cast a positive replica of an oral cavity.
• Type 1 plaster/impression plaster is used in making primary
  impressions of edentulous oral cavity in complete denture
  fabrication.
• Type III dental stone is an alpha form of calcium sulphate
  hemihydrate which is used to make master casts

Question 37

Describe three properties of cobalt chrome that make it a suitable alloy for use in a partial denture

Answer 37

• rigid
• component parts integral to base
• high abraision resistance

Question 38

Give two drawbacks to cobalt chrome as a denture base

Answer 38

• Difficult to repair

- difficult to add more teeth

Question 39

List four types of elastomeric impression materials

Answer 39

• addition silicones
• polyethers
• polysulphides
• condensation silicones

Question 40

What are some dental investment materials?

Answer 40

• Dental stone or plaster
• Gypsum bonded materials
• Phosphate bonded materials
• Silica bonded materials

Question 41

What are the requirements of an investment material?

Answer 41

• Expand; compensate for cooling shrinkage of alloy
• Porous; allow escape of trapped gases on casting
• Strong at room temp; ease of handling
• Strong at casting temp; withstand casting forces
• Smooth surface; easy finishing
• Chemically stable; porosity, surface detail
• Easy removal from cast; technician time
• Handling; not complicated
• Relatively inexpensive; destroyed

Question 42

How are elastomeric impression materials formed?

Answer 42

• Formed by the polymerisation with cross linking of polymer chains
• Cross linking generates elastic properties. Causes fluid > solid transition
• Polymerisation may produce by-products (H2O, H2, alcohol) which affect dimensional stability and cast compatibility

Question 43

Name two elastomeric impression materials

Answer 43

• Conventional silicone
• Addition cured silicone
• Hydrophilic silicone (incorporate non-ionic surfactant; wets tooth surface, more easily wetted by water containing die materials)
• Polyethers (impregum)

Question 44

What are the ideal properties of an elastomeric impression material?

Answer 44

• Low viscosity; interaction between material and tooth/soft tissue
• Low contact angle/good wettability; must make intimate contact with teeth/mucosa
• High elastic recovery
• Good dimensional stability
• High tear resistance

Question 45

Give some positive and negative points of PMMA as a temporary material

Answer 45

• Powder and liquid formulation
• Self curing
• Good marginal fit
• Good transverse strength
• Polishable
• Poor abrasion resistance
• High shrinkage
• High thermal release
• Free monomer may be toxic

Question 46

What is the significance of temperature change during the setting of temporary materials?

Answer 46

There are some studies that suggest a link between thermal change and pulpal damage.

• 2o increase; no effect on pulpal histology
• 5.5o increase; significant tissue changes over first few days. Most pulps overcome trauma
• 11o increase; two thirds suffer irreparable necrosis.
• Pulpal damage is also affected by the duration of the temperature change.

Question 47

Why is low viscocity important for a luting agent?

Answer 47

To allow seating of the restoration without interference.

• Viscocity increases as the material sets, so restoration must be seated quickly and pressure maintained.
• ideal film thickness is 25 microns or less

Question 48

Name some ideal physical properties of a luting agent.

Answer 48

• Good marginal seal (chemically bonded to tooth and restoration)
• Good aesthetics
• Low solubility
• Cariostatic (fluoride releasing, antibacterial)
• Biocompatible; non toxic, not damaging to pulp

Question 49

What are some ideal mechanical properties of a luting agent?

Answer 49

• High compressive strength
• High tensile strength
• High hardness value
• Youngs modulus similar to tooth

Question 50

What are some different types of luting agent?

Answer 50

• Dental cement
• Glass ionomer cement
• Composite resin luting ageng

Question 51

Describe a silane coupling agent

Answer 51

• Applied to the etched porcelain surface, ideally as a mono-layer
• Very strong bond between oxide groups on the porcelain surface and the silane
• The other end of the silane molecule has C=C which reacts with the composite resin luting agent
• This works in the same manner as a dentine bonding agent does with tooth

Question 52

How does a composite luting agent bond to an indirect composite restoration?

Answer 52

• composite bonds to composite
• Bond strength is lower to inlay fitting surface than to new composite
• Bond is micromechanical to rough internal surface of inlay.
• Bond is also chemical to remaining C=C on the fitting surface of the inlay
• Use dual cure cement as light penetration through the inlay will be poor

Question 53

How does a composite luting agent bond to porcelain?

Answer 53

-The porcelain is etched with hydrofluoric acid to produce a rough retentive surface but is still not hydrophobic and compatible with composite resin luting agents. A surface wetting agent is required

Question 54

How does a composite luting agent bond to metal?

Answer 54

• Metal surface must be roughened by etching or sandblasting.
• Sandblasting does not give the same undercut surface as etching and so chemical bonding is required

Question 55

Describe a self adhesive composite resin luting agent

Answer 55

• The metal coupling agent is incorporated into the composite resin
• This simplifies the bonding process
• MDP is used in panavia
• This is an anaerobic self cured material
• Good film thicknes
• Opaque
• Moisture sensitive
• Expensive