Dental Materials

Question 1

What are the requirements of dental materials?

Answer 1

• Fit for purpose - Each patient is different
• Easy to handle
• Appropriate properties
• Aesthetics
• Clinically efficacious
• Safe

Question 2

How is testing for safety of a dental material done?

Answer 2

BASIC RESEARCH
- Pre-market testing
CLINICAL RESEARCH
- Post-market surveillance

Question 3

What guidelines is pre-market testing based on?

Answer 3

ISO 10993 guidelines

Question 4

What do you test for in vitro?

Answer 4

• Cytotoxicity, Genotoxicity, Estrogenicity - organ culture, tissue culture, cell culture (2D or 3D)
• Microbial test

Question 5

What do you test for in vivo?

Answer 5

Implantation tests in animals
Systemic toxicity
Evaluation of sensitization and irritation
Pulp studies

Question 6

What is the CE mark?

Answer 6

a certification mark that indicates conformity with health, safety, and environmental protection standards for products sold within the European Economic Area (EEA).[

Question 7

What are the most common allergens in dental materials?

Answer 7

nickel: 25.0%; palladium: 24.4%; chromium: 16.7%; cobalt - 15.9%; stannum (Tin) - 12.5%

Question 8

What types of adverse reactions to dental materials could there be?

Answer 8

Toxic reactions 
- e.g. cytotoxicity, carcinogenicity
Irritant contact dermatitis
- acute toxic reaction, paresthesia,cumulative insult dermatitis
-Allergic contact dermatitis
-Oral lichenoid reactions
-Anaphylactoid reactions
-Contact urticaria
-Intolerance reactions

Question 9

What does post-market surveillance do?

Answer 9

Monitors reactions after the product has gone out on the market e.g. long term drug side effects

Question 10

Why are metals good conductors?

Answer 10

due to movement of free electrons

Question 11

What is a transition?

Answer 11

a reorganisation of the distribution of the atoms in a material.

Question 12

What is the transition temperature

Answer 12

The temperature at which a reorganisation of the distribution of the atoms in a material occurs

Question 13

What are the 3 common transition states?

Answer 13

Heat a solid – melts. Cool it and it re-solidifies
Add a liquid to a solid – It solidifies (amalgams)
Heat some metals and they change their atomic structure eg gamma to alpha iron

Question 14

What are the features of ceramics?

Answer 14

Inorganic, non-metallic compounds, usually crystalline in nature.
Occasionally term ceramic is used to encompass inorganic amorphous materials (glasses)

• Brittle, hard materials with high melting points
• Weak in tension, but have very high compressive strengths
• Ordered 3D structure of covalently and ionically bonded compounds of a metal with a non-metal.

Question 15

How are ceramics made?

Answer 15

1: Mix
2: Sieve
3: Squash
4: Dry
5: Heat

Fine, squashed, dry powders heated up to just below melting point
All the little particles stick together and usually shrink

Question 16

What are the 3 common transitions for ceramics?

Answer 16

• Sintering process (shrinkage)
• Hot pressing induces phase change (change in atomic arrangement) and/or a densification
• Solid liquid setting reaction

Question 17

What other material is similar to ceramics?

Answer 17

Glass

Question 18

How is glass formed?

Answer 18

Supercooling
No time to organise molecules
Amorphous
Forms a glass

Question 19

How are glass-ceramics formed?

Answer 19

2 stage heat treatment - Formed by the controlled crystallisation of glass

Nucleation - small areas of order (a little below the glass transition temp)

Growth – the nuclei grow larger (below melting temp)

Can alter the time and temperature of each step to produce larger/smaller crystals

Question 20

Give examples of some polymers in dentistry

Answer 20

acrylic resin, alginate, polyether

Question 21

What is the glass transition temperature?

Answer 21

The temperature at which the polymer chains begin to flow past each other

Question 22

What are the 3 polymer transitions?

Answer 22

Solid > Liquid > Solid
Monomer > Solid
Polymer liquid > Polymer solid

Question 23

At what stages do you need to consider the properties of materials?

Answer 23

The unmixed compounds

during mixing

the set material

Question 24

What are mechanical properties of a material?

Answer 24

Used to indicate how a material or component will respond to use i.e. in response to applied forces

Question 25

What are the ISO standards?

Answer 25

ISO creates documents that provide requirements, specifications, guidelines or characteristics that can be used consistently to ensure that materials, products, processes and services are fit for their purpose

Question 26

What are some mechanical properties?

Answer 26

Stress and Strain
Fatigue
Hardness
Abrasion resistance (wear)

Question 27

What is fatigue?

Answer 27

Repetitive stress

Question 28

What is hardness?

Answer 28

resistance to scratching

Question 29

What is shear?

Answer 29

Two planes moving across each other in opposite directions

Question 30

What is stress?

Answer 30

the force per unit cross-sectional area, that is acting on a material.

Stress = F/A
where F = force, A = original cross area

Units = (mega) pascals (MPa) = Newtons per square meter (N.m-2

Question 31

What is strain?

Answer 31

the fractional change in the dimensions caused by the force

Strain does not have units as it is a ration of lengths

Strain = (L1-L0)/L0
where L1-L0 = change in length,
L0 = original length

Question 32

What is resilience?

Answer 32

The amount of energy a material can absorb without undergoing any plastic deformation

Question 33

What is toughness?

Answer 33

The amount of energy a material can absorb to the point of fracture

Question 34

What is ductility?

Answer 34

Ductility is the amount of plastic strain at fracture

Question 35

Describe the stress-strain curve

Answer 35

Stress - y axis
Strain - x axis

straight bit - elastic bit
end of straight bit - eleastic limit at yield stress
after this point it’s the plastic flow region - permanent deformation

Question 36

What is the elastic (young’s) modulus?

Answer 36

a measurement of the stiffness, units = pascals (often mega or giga: MPa or GPa)

change in y (stress) over change in x (strain)

Question 37

What is the ultimate tensile strength?

Answer 37

The maximum force absorbed

Question 38

What are dental products often subjected to?

Answer 38

Fluctuating, cyclic loads over a period of time. The accumulation of stress (esp around defects or pores) can cause crack propagation leading to failure.

Question 39

What are fatigue properties given as?

Answer 39

FATIGUE LIFE (No. cycles to failure) or FATIGUE LIMIT or FATIGUE STRENGTH (cyclic stress required to cause failure for a set number of cycles).

Question 40

What are the 4 indentation techniques used to measure hardness?

Answer 40

Knoop, Vickers, Brinell or Rockwell

Question 41

What is hardness directly proportional to?

Answer 41

the size of the indentation and is given as a number (the hardness number), large for soft materials and smaller for hard

Question 42

What can hardnesss also be measured by (as well as indentation techniques)?

Answer 42

The scratch test

Question 43

What are some chemical and physical properties?

Answer 43

Elasticity, Viscosity and Viscoelasticity
- working times and setting times
Durability & Degradation
- solubility, corrosion, erosion
Thermal Properties
- thermal conductivity, thermal diffusivity, exothermic reactions
Adhesion
Colour and Aesthetics
Biological Properties (biocompatibilty)

Question 44

How do viscous materials respond to stress and strain?

Answer 44

resist flow and strain linearly with time when a stress is applied.
And when the load is released, they do not immediately return to the original state.

Question 45

How do elastic materials respond to stress and strain?

Answer 45

strain when stretched & instantaneously return to their original state once the stress is removed.

Question 46

What do viscoelastic materials exhibit?

Answer 46

time-dependent strain

Question 47

What is creep?

Answer 47

a constant state of stress with an increasing amount of strain

Question 48

What is stress relaxation?

Answer 48

the observed decrease in stress in response to the same amount of strain generated in the structure

Question 49

What is corrosion?

Answer 49

the deterioration of a material, usually a metal with its environment. It is an electrochemical process and basically can be considered as destructive oxidation.

Question 50

What is the chemical solubility test?

Answer 50

Put it in vinegar at 80C for 16h, weigh before and after

Question 51

What is thermal conductivity defined as?

Answer 51

the rate of heat flow (Watts per meter) per unit of temperature gradient under steady state conditions, hence the units of thermal conductivity are W m-1 °C-1

Question 52

What equation links thermal conductivity and diffusivity?

Answer 52

D = λ/( ρ Cp)

Where D is thermal diffusivity, λ is thermal conductivity, ρ is density and Cp is heat capacity

Question 53

What is thermal diffusivity?

Answer 53

It’s a measure of readily a material conducts thermal energy to how readily it stores it

When transient heat is applied (to teeth/dental material) a proportion will be expended raising the temperature of the tooth/material, whereas the remainder will be conducted to the pulp.
Therefore materials with low thermal diffusivities are generally preferred.

Question 54

Why does thermal expansion occur?

Answer 54

due to the increase amplitude of atomic/molecular vibrations due to the absorption of heat energy.

In dentistry it is crucial to minimise thermal expansion mismatches between restorative materials and tooth tissue and between neighbouring materials e.g. cores/substructures and crowns

Question 55

What is a metal?

Answer 55

A crystalline structure held together by metallic bonds - sea of negative delocalised electrons surrounded positive cations

Question 56

What are the two types of crystal structures in metals?

Answer 56

FCC - face centred cubic

BCC - body centred cubic

Question 57

What are the two packing factors of the two crystal structures?

Answer 57

FCC - packing factor 0.74

BCC - packing factor 0.60

Question 58

What is the metal microstructure?

Answer 58

(Usually) polycrystalline structure consisting

of grains and grain boundaries

Question 59

What does etching do to a metal structure?

Answer 59

creates grain contrast depending on

crystallographic orientation

Question 60

What is an alloy?

Answer 60

A combination of two or more metals

Question 61

What are the 3 different types of alloys?

Answer 61

• substitutional solid solutions
• interstitial solid solutions
• intermetallic compounds

Question 62

What are the characteristics of a substitutional solid solution?

Answer 62

● The different atoms have
the same valency
● With the same crystal
structure
● Their atomic size is within
15 %

Question 63

What are the characteristics of a interstitial solid solution?

Answer 63

● Solute atom solvent atom
● The solute (smaller) atoms
occupy the space between
the solvent (larger) atoms
● Distortion of the lattice
occurs to accommodate
the extra atoms

Question 64

What are the characteristics of a intermetallic compound?

Answer 64

An intermetallic compound is formed when
two or more metals combine with a discrete
composition or stoichiometric ratio
e.g. dental amalgam
● The alloy contains a silver/tin compound,
Ag3Sn, and a copper/tin compound, Cu6Sn5

Question 65

What is a phase?

Answer 65

A phase is defined as a homogeneous
physically distinct part of a system that is
separated from other parts by a definite
physical boundary

Alloys can be single or multiple phase

Question 66

What do the phases in an alloy depend on?

Answer 66

Composition and temperature

Question 67

What are the different crystal structures in alloys called?

Answer 67

Phases

Question 68

What is a dental amalgam mixed in?

Answer 68

An amalgamator

Question 69

What is mixed in the amalgamator?

Answer 69

Powder (gamma phase - tin and silver)and copper/zinc to the mercury

Question 70

What are the two types of dental amalgam?

Answer 70

Conventional dental amalgam and High copper content amalgams (nongamma
2)

Question 71

What is in a conventional dental amalgam? (composition)

Answer 71

Silver Ag 67-74 %
Tin Sn 25-27 %
Copper Cu ~6 %
Zinc Zn ~2%

triple distilled mercury (Hg)

Question 72

What type of alloy is the gamma phase in amalgam?

Answer 72

Intermetallic compound

Question 73

What phase is the gamma phase?

Answer 73

3rd pure phase of silver and tin

Question 74

What does the size and shape of the powder particles influence when mixing amalgam?

Answer 74

handling,
• setting reactions and
• final properties of the restoration.

Question 75

What is the conventional amalgam reaction?

Answer 75

Ag3Sn + Hg → Ag3Sn + Ag2Hg3 + Sn7-8Hg

g + Hg → g + g 1 + g 2

Alloy + Triple distilled mercury -> (unreacted) +Alloy Silver Mercury phase + Tin mercury phase

solid + liquid solid + solid + solid

Question 76

How does the powder and the mercury mix?

Answer 76

Outer layer of alloy particles dissolve in the mercury

Question 77

What are the reasons for replacement of amalgam restorations?

Answer 77

1. Tooth fracture
2. Recurrent caries
3. Gross amalgam fracture
4. Marginal breakdown

Question 78

What can undermine enamel in cavity prep?

Answer 78

Providing flat walls and floors to a cavity can undermine

enamel

Question 79

What are the causes of recurrent caries?

Answer 79

• Contamination
  ● Poor Matrix techniques = proximal overhangs or poor contact points = plaque accumulation = recurrent caries
  ● Poor Condensation = porosity and excess Hg =reduced amalgam strength
  ● Marginal adaptation =poor, can = marginal leakage, recurrent caries & corrosion

Question 80

What are the causes of gross amalgam fractures?

Answer 80

● Shallow preparations
● Non-retentive proximal boxes
● Sharp internal angles = stress concentrations

Question 81

What are the causes of marginal breakdown?

Answer 81

● Incorrect cavo-surface angles(= (the angle formed by the junction of a wall of a tooth cavity preparation and a surface of the crown of the tooth.)
● Delayed expansion - In the case of Zn containing alloys, if the preparation site is not kept dry, Zn can
react with the saliva
Zn +H2O ® ZnO + H2
Bubbles of hydrogen form within the
amalgam. The bubbles expand, so amalgam
expands - Pressure on the pulp
● Overfilling, underfilling, overcarving
● Overfilling (without carving back) = ledge = fracture
● Underfilling or overcarving = acute amalgam angles = marginal breakdown
● Creep and corrosion of the amalgam - unavoidable intrinsic property of amalgam

Question 82

What are the problems with amalgam restorations?

Answer 82

-Lack of aesthetics
• Non-adhesive
• Lack of strength and toughness
• Susceptible to corrosion
• Biocompatibility

Question 83

What is the weakest phase in amalgam?

Answer 83

y2/ gamma 2

Question 84

What are dispersed phase amalgams called (addition of Cu)?

Answer 84

Admix

Question 85

What is the admix made of?

Answer 85

AgSn alloy (lathe cut) and AgCu (spherical)

Question 86

How does the dispersed phase amalgam setting reaction differ from the traditional amalgam setting reaction?

Answer 86

first step same - y + Hg -> y + y1 + y2

Then: y2 + Ag/Cu -> Cu5Sn5 + y1

finally: y + (Ag-Cu-Sn) + y1 (gets rid of gamma 2)

Question 87

How does the addition of copper change the properties of the amalgam?

Answer 87

gets rid of susceptibility to corrosion

Question 88

What is a galvanic cell?

Answer 88

an electrochemical cell that derives electrical energy from spontaneous redox reactions taking place within the cell

Question 89

What are the benefits of dispersed phase amalgam (high Cu)?

Answer 89

• Reach full strength more quickly
• Easier to condense
• Easier to carve and polish
• Lower mercury content
• Higher strength
• More resistant to corrosion

Question 90

What is the setting reaction for high Cu single phase amalgams?

Answer 90

AgSnCu + Hg -> AgSnCu + y1 + Cu6Sn5

Question 91

What are the variations in dental amalgams referring to different types of cuts?

Answer 91

Dental amalgams: variations
• Conventional amalgams
– lathe cut Ag3Sn
– spherical Ag3Sn
• High Cu dispersed phase amalgams
– Lathe cut Ag3Sn+ spherical AgCu
– Lathe cut AgSnCu+ spherical AgSnCu
• High Cu single phase amalgams
– All spherical AgSnCu
– Lathe cut AgSnCu

Question 92

What are the potential symptoms and hazards of Hg Exposure

Answer 92

– Respiratory failure
– Kidney impairment
– Cognitive disturbances
– Reduced visuoperceptual and
constructional skills
– Memory loss
– Hypertension
– Headaches

Question 93

What are the potential potential sources of

mercury contamination?

Answer 93

– spills
– leaky dispensers or capsules
– removing or polishing amalgams
– sterilising Hg-contaminated instruments

Question 94

How can you minimise mercury contamination?

Answer 94

Therefore:
– Use pre-capsulated alloys
– Avoid direct skin contact with dental amalgam
– Use high volume evacuation when finishing or removing amalgams
– Wear a mask when removing amalgams
– Store bulk mercury in unbreakable containers
– Store amalgam scrap under radiographic fixer solution
– Dispose of contaminated items in a sealed
bag
– Report and clean up spilled mercury
immediately using a clean-up kit
– Wear professional clothing only in the
dental surgery

Question 95

How to store and dispose of mercury/dental amalgam?

Answer 95

– Store bulk mercury in unbreakable
containers
– Store amalgam scrap under radiographic
fixer solution
– Dispose of contaminated items in a sealed
bag
– Report and clean up spilled mercury
immediately using a clean-up kit
– Wear professional clothing only in the
dental surgery

Question 96

What is the performance criteria for dental resin?

Answer 96

 Mechanically Strong
 Physically Stable
 Easily Manipulated
 Excellent Aesthetic Qualities
 Chemically Stable (in the mouth and under storage
conditions)
 Biocompatible
 Reasonable Cos

Question 97

When was Polymethylmethacrylate (PMMA) introduced and name some uses?

Answer 97

1936

(a) Bone cements
(b) Contact and intraocular lens
(c) Screw fixation in bone
(d) Filler for bone cavities and skull defects
(e) Vertebrae stabilization in osteoporotic
patients

Question 98

What are the pros and cons of PMMA?

Answer 98

• bio compatible
• acceptable costs of material and processing method
• aesthetic
• good mechnical properties - strength, rigidity, wear resistance,
• suitable manipulation, processing is easy, easy mixing

colour stability
shrinking problems
adhesion problems

Question 99

What is a polymer?

Answer 99

A polymer is a large, chain-like
molecule made up of monomers,
which are small molecules

Question 100

When were Self-curing dimethacrylates invented?

Answer 100

1950s

Question 101

What decides the property of a polymer?

Answer 101

• how their molecules are arranged (polymer structure)

* the strength of the forces between these molecules (intermolecular forces)

Question 102

What does strength and flexibility of a polymer depend on?

Answer 102

•Chain length: in general, the longer the chains the stronger the
polymer
•Side groups – intramolecular forces (e.g. hydrogen bonding) give
stronger attraction between polymer chains, making the polymer
stronger
•Branching - straight, unbranched chains can pack together more
closely than highly branched chains, giving polymers that have
higher density, are more crystalline and therefore stronger
•Cross-linking - if polymer chains are linked together extensively by
covalent bonds, the polymer is harder and more difficult to melt

Question 103

What are the useful properties of amalgam?

Answer 103

Good compressive strength
• Good balance of working & setting times
• Fair resistance to marginal leakage
• Minimal dimensional change on setting
• Relatively resistant to contamination
• Nearly 200 years of scientific development
• Low cost

Question 104

What are the limitations of amalgam?

Answer 104

Not adhesive to tooth substance
• Brittle in thin sections
• Alloy / mercury proportions critical
• Detectable levels of creep
• Corrosion can weaken
• Affected by water during setting reaction
• Toxic components
• Unaesthetic
• Not conducive to minimal intervention approach

Question 105

What are the indications for amalgam?

Answer 105

Posterior teeth
• When too late for prevention
• When an adhesive restoration not
indicated
• Occlusal load
• Size of restoration
• Isolation from moisture

Question 106

How can amalgam be retained?

Answer 106

• Mechanical ‘lock’ of the restoration
• Undercuts – can be very subtle
• Occlusal lock

Question 107

How can you get resistance to occlusal forces?

Answer 107

• At least 2mm thick
• No feather edges
• Cavosurface angle
• Consider effects of creep
• Floor perpendicular to occlusal forces
• Smooth internal angles

Question 108

What are the hazards of amalgam?

Answer 108

• Mercury
• Neurotoxic
• Adversely affects renal function
• Culmulative in the body & environment
• Alloy components
• Tin and silver compounds considered
hazardous to the environment

Question 109

How to manage risk of amalgam?

Answer 109

• PPE
• Avoid in pregnancy
• Use capsules
• Reduces exposure
• Optimises trituration
• Aspirator & isolation
• Proper disposal

Question 110

How to prepare and place the restoration?

Answer 110

Isolate the cavity - free of debris and dry
Triturate the amalgam - amalgamator
Place and condense the amalgam - amalgam carrier, condensers/pluggers,
Condensing - add layers and press together
Burnishing - pear ended/ ladmore burnisher, iinitiate fissures and condense margins
carving - removes mercury rich layer, develops anatomy

Finishing: 
Adjust occlusion & morphology
• Reduces corrosion
• Aesthetics
• …Wait for 24 hours

Question 111

What advantages are there to smaller filler sizes?

Answer 111

• Increased resistance to wear and potentially greater strength
• Increased ability to polish
• Improved translucency
• Combined with changes in filler volume, potential to decrease polymerisation shrinkage.

Question 112

What are the 3 phases in a composite resin system?

Answer 112

Organic phase
Dispersed phase
Interfacial phase

Question 113

What does the organic phase (resin matrix) form?

Answer 113

Forms the polymer backbone to provides tensile strength

Question 114

What does the dispersed phase form? (inorganic filer)

Answer 114

Improves mechanical properties (wear and compressive strength) and decreases shrinkage.

Question 115

What does the interfacial phase form? (coupling agent)

Answer 115

Provides adhesive bond between organic and dispersed inorganic phases

Question 116

What are the advantages of nanofilled over conventional composites?

Answer 116

Potentially superior fracture toughness, high strength, and excellent wear resistance.

High polishability and very low polymerization shrinkage.

Improve the continuity between nanoscopic tooth structure and nanofillers to provide a more stable and “natural” interface

High surface to volume ratio allow high filler loading to give workable consistencies

Nanosized fillers are able to scatter or absorb visible light which increase translucency