Materials Science 1

Question 1

¢ Synthetic Biomaterials

Answer 1

— Composites

— Silicone Impression Materials

Question 2

¢ Natural Biomaterials

Answer 2

— Alginates

— Hydrocolloids

Question 3

¢ Tissue-engineered Biomaterials

Answer 3

— Stemcells
— Replacement tissues (Growing a Tooth from a Bud)
— Promising but still a generation away (>20yrs) ¢ 4 yrs to create a coronal portion of a tooth
¢ Cost effective and accelerated

Question 4

Metals

Answer 4

Hard

— Ductile – Tough — Strong

Question 5

Ceramics

Answer 5

Hard

— Brittle — Strong

Question 6

Polymers

Answer 6

Soft

— Ductile - Tough — Weak

Question 7

Processing characteristics

Answer 7

Metals and Ceramics Have High Processing Temperatures
¢ Polymers tend to Have Lower Processing Temperatures
¢ Polymers Tend to be used as Direct Processing Materials

Question 8

METALLIC BONDS

Answer 8

metallic elements have 1,2,3
electrons in their outer shell
¢ electrons are key to metallic bonds
¢ electrons are loosely bound to nucleus
¢ electrons have free mobility
—  thermal and electrical conductivity —  ductility-bend without breaking

Question 9

Ductile

Answer 9

Ductile- atoms can slide - in essence a more uniform atom size.

Question 10

Less uniform atom size

Answer 10

Stronger less ductile

Question 11

CHARACTERISTICS OF CERAMIC BONDS

Answer 11

¢ ionic and covalent bonds associated with ceramics ¢ both are stronger than metallic bonds
¢ covalent >ionic
¢ ionic bonds - electron donor and electron acceptor ¢ covalent bonds-equally shared electrons
¢ non mobile ions

Question 12

MICROSTRUCTURE OF CERAMICS

Answer 12

Mixture of metallic and non-metallic elements
¢ Most common ceramics in dentistry are 3 metallic oxides (SiO2,
Al2O3, K20)
¢ Crystalline (long range order) crystalline silicate-quartz or crystobilite
¢ Noncrystalline (short range order no long range) or amorphous silicate-glass
¢ Most dental ceramics are semicrystalline or polycrystalline
¢ SiO4 tetrahedron is the building block

Question 13

MICROSTRUCTURE OF DENTAL PORCELAIN

Answer 13

¢ SiO4 tetrahedron is the building block
¢ primarily a glass with some crystalline residuals
— noncrystalline or amorphous silicate-glass
— crystalline silicates
¢ Quartz or crystobilite ¢ Leucite (not Lucite)
¢ Processed by Sintering or Melting at High Temperatures

Question 14

CHARACTERISTIC POLYMER BONDS

Answer 14

¢ Covalent bonds
¢ High molecular weight
¢ Long molecules composed principally of nonmetallic elements (organic chemistry C,O,N,H)

Question 15

Free Radicals Will Initiate

Answer 15

Methacrylate Polymerization

Question 16

CQ (Yellow) absorbs visible light. Interacts with

Answer 16

DMAEMA To Generate Free Radicals.

Question 17

RESIN MATRIX

Answer 17

Monomers ¢ Initiator

— hasten free radical reaction

Question 18

¢ Direct Placement requirements

Answer 18

Flowable Material — Stable Material
— Trigger for Setting — Rapid Setting
— Room Temperature Setting Reaction

Question 19

Metals – Indirect

Answer 19

High Processing Temperatures — Exception: Amalgam

Question 20

Ceramics – Indirect

Answer 20

High Processing Temperatures — Exception: Cements

Question 21

Polymers – Direct

Answer 21

Low Processing Temperatures — Exception: Indirect Composites

Question 22

Dispersed phase

Answer 22

Glass fillers

Question 23

Matrix phase

Answer 23

Monomer resin

Question 24

¢ specific gravity

Answer 24

relative density = density of material/density of water

Question 25

¢ Thermal expansion-

Answer 25

most things expand when heated and contract when cooled
— Measure:LCTE-linear coefficient of thermal expansion- cm/cm/°C (ppm/°C)
— Ceramics (1-15 ppm/°C)

Question 26

Heat flow-

Answer 26

teeth are insulators due to high mineral content
— Measure: thermal conductivity-(rate of heat conduction)
— thermal diffusivity-(heat conduction/ unit time)
— Clinical consequence: Pulps can can withstand small temperature changes for short times (42°C for 60 sec) restricted circulation of pulp cannot dissipate heat and carry it away.
— Metals have high thermal conductivity so they need thermal insulator like base
— Composites have low thermal conductivity so they do not need base

Question 27

METAMERISM

Answer 27

2 objects that appear the same color under one light source and different under another light sourse
¢ Different spectral characteristics

Question 28

Wetting

Answer 28

How water interacts with surface. Wetting can be anticipated on the basis of the Hydrophobicity (water-hating) and hydrophilicity (water loving) of materials

Question 29

SEALANTS

Answer 29

¢ Unfilled diluted resins ¢ Self or light cured
¢ Clear or opaque
¢ Radiopaque

Question 30

HYDROPHILIC PRIMERS

Answer 30

Allow penetration into areas with water
¢ Usually mixed with a solvent (alcohol, acetone)
¢ Very low viscosity
¢ Allows for attachment to composite

Question 31

Primary Bonding-

Answer 31

generally affected by chemical and electro chemical reactions

Question 32

Secondary bonding

Answer 32

generally affected by processes such as adsorption (onto) and absorption (into)

Question 33

corrosion.

Answer 33

¢ The spontaneous destructive oxidation of metals is called corrosion.
¢ All metals corrode; in our normal atmosphere of 21% oxygen, all metals except gold, platinum, and palladium corrode spontaneously (noble metals).

Question 34

Titanium-

Answer 34

Recently deemed noble metal

Question 35

Active

Answer 35

lead to destruction (Gamma 2)

Question 36

Passive

Answer 36

produce corrosion film that prevents further

corrosion (titanium implants)

Question 37

Immune

Answer 37

noble metals (gold)

Question 38

ELECTROCHEMICAL CORROSION (active)

Answer 38

*An anode.-corroding metal
¢ *A cathode.-different metal (passive-supplied electrons to solution)
¢ *A conducting environment for ionic movement (electrolyte).
¢ *An electrical connection between the anode and cathode for the flow of electron current (metals)
¢ In amalgam anode and cathode are the two phases

Question 39

Chemical Dissolution

Answer 39

normally occurs through dissolution of oxides created by hydrogen bonding effects of water in local areas of high acidity.
¢ Examples
— Acids dissolve HA (caries, acid etch for enamel bonding)
— Acidulated fluoride treatments dissolve ceramic crowns may roughen surface or remove surface stain

Question 40

HOW ARE POLYMERS AFFECTED

Answer 40

Absorption of water into polymers (secondary
bonds)
— Dimensional changes
¢ Hydrolytic degradation and release of components (primary bonds)
— Water, enzymes (esterases), bacterial byproducts — Contributes to wear problem with composites

Question 41

BIOLOGIC PROPERTIES

Answer 41

No Adverse Reactions
¢ Limits the Choice of Materials – Why are There no New
Materials?
¢ Toxicity
¢ Sensitivity
— Metal ion interaction of concern (Hg, Ni)
— Polymer breakdown products of interest and concern
— Sensitivity Rxns to monomers (latex)

Toxicity
— Hg is a concern
— Bisphenol A - byproduct in BisGMA-estrogen like – concern of cancer-particularly children- are plastic bottles dangerous?

Question 42

¢ Single dimension

Answer 42

Compression
— Tension
— Shear

Question 43

Combinations

Answer 43

Torsion (twisting)
— Flexion (tensile)
— Diametral Compression (tensile)

Question 44

Resilience

Answer 44

before deformation

Question 45

Toughness

Answer 45

Toughness-before failure or fracture occurs

Question 46

MECHANICAL EVENTS ARE

Answer 46

time and temp dependent

Question 47

MECHANICAL PROPERTIES VS. TIME

Answer 47

Degradation Affects Mechanical Properties
¢ Cracks or Non-Critical Defects Accumulate over
Time
¢ Water is Absorbed into Materials

Question 48

Creep (strain relaxation)

Answer 48

Deformation over time in response to low constant

stress

Question 49

Stress relaxation

Answer 49

Deformation over time in response to low constant strain

Question 50

FATIGUE -MULTIPLE CYCLES OF LOW STRESS

Answer 50

Normally plastic strain (deformation) below the elastic limit is negligible
Under many cycles small amounts of deformation accumulate until failure occur at low stresses

Question 51

Jaw

Answer 51

Class III lever

Question 52

¢ Abfractions

Answer 52

usually associated with heavy wear facets

¢ Cyclic tension and compression of enamel rods lead to microfractures

Question 53

Single cycle overload

Answer 53

“unexpectedlybitoncherrypit or bone” (rare)

Question 54

Fatigue

Answer 54

cyclic loads well below breaking load
— “Iwaseatingsomething soft” (more common)
— Slowcrackpropagationover time