Ceramic Restorations

Question 1

Ceramics: Applications
(5)

Answer 1

-All-ceramic crowns, inlays, onlays,
veneers, FPDs
-Metal-ceramic crowns and FPDs
-Implant abutments (and implants)
-Denture teeth
-Ceramic orthodontic brackets

Question 2

Ceramics: Benefits
(3)

Answer 2

Enhanced esthetics due to the absence of metal
and improved light transmission.
-Looks like a tooth!
-Most beneficial for teeth with normally colored
dentin as the dentin color can affect restoration
through the ceramic

Question 3

Ceramics: Benefits
Physiologic —
response when properly
contoured and highly
glazed/polished.

Answer 3

gingival

Question 4

Why and How does ceramic look so much like a real tooth?
(3)

Answer 4

-Color Replication
-Refraction
-Translucency

Question 5

-Color Replication

Answer 5

-Ceramics can be tinted/colored to produce
nearly any tooth shade

Question 6

-Refraction

Answer 6

-Ceramics reflect and absorb light rays
simulating enamel

Question 7

-Translucency

Answer 7

-Type of porcelain (incisal/dentin/opaque)

Question 8

Flexural Strength – ceramics are brittle!

Answer 8

-Defined as the strength of a material in bending
-Stress on the outermost fibers of a bent test specimen, at failure

Question 9

Fracture Toughness

Answer 9

-Defined as the resistance to fracture when crack present
-Metals –high FT due to plasticity at tip of crack, absorbs energy, making crack
propagation more difficult
-Ceramics –low FT –little plasticity

Question 10

Ceramics — as they are fired

Answer 10

shrink

Question 11

Thermal insulator
(2)

Answer 11

–poor conductor of heat
-Coefficient of thermal expansion (CTE) is low. Does not expand and contract
much with heat and cold.

Question 12

Ceramics are brittle
Griffith flaws
-A.A. Griffith (1921) suggested that the low fracture strength of glass is
due to the presence of

Answer 12

microscopic flaws in the bulk material. Surface
flaws act as stress initiators and cause widening and propagation of
microcracks through the ceramic material.

Question 13

Griffith flaws
-A.A. Griffith (1921) suggested that the low fracture strength of glass is
due to the presence of microscopic flaws in the bulk material. Surface
flaws act as stress initiators and cause widening and propagation of
microcracks through the ceramic material.
-Porosities in the porcelain propagate —
-Damage from
-These porosities can be

Answer 13

cracks
grinding, heat propagate cracks
external or within the material

Question 14

Crack propagation

Answer 14

(why ceramics fail at lower than
expected stress)
-Crack will propagate through material, or until a particle
is met which stops the crack growth.

Question 15

Stress Corrosion

Answer 15

-Strength is reduced in moist environment.
-Stress-dependent chemical reaction between water
vapor and crack tip, causing crack growth and
fracture with comparatively little occlusal loading
(over long periods).

Question 16

Sintering:
(4)

Answer 16

-Ceramic powder/liquid is built up and molded (feldspathic porcelain)
-Process of heating ceramic powder once molded
-Called “Firing” the ceramic
-Sintering is the reduction of porosities between particles as the ceramic
becomes more rubbery.

Question 17

Glass Transition Temperature: (Tg)
(4)

Answer 17

-This is a range of temperature where porcelain starts to become molten.
-A transition from solid to rubbery.
-This is typically between 540 and 610 degrees Celcius.
-This is below the ceramic melting point.

Question 18

Heat Pressing:
-Relies on
-Restoration is made from
-Also known as

Answer 18

external pressure to sinter and shape the ceramic at high temperature
a Wax pattern (lost wax technique)
High Temperature Injection Molding

Question 19

CAD/CAM
(2)

Answer 19

-Computer Aided Design
-Computer Aided Manufacture

Question 20

Hard Milling
(2)

Answer 20

-Already densely sintered material
-Silicate, glass ceramics, resin-based
ceramics

Question 21

-Soft Milling
(3)

Answer 21

-Partially sintered material
-Zirconia and Lithium Disilicate (e.Max)
-Sintering to be completed in oven AFTER
manufacture

Question 22

— are used for the milling process

Answer 22

Blocks

Question 23

n the past, there have been limited shade selections. However,

Answer 23

newer multishade blocks have improved esthetics
-Also a stain and glaze done with a furnace can improve
esthetics.

Question 24

Types of blocks available:
(3)

Answer 24

Glass Ceramics:
Zirconia:
Resin-ceramics:

Question 25

skipped
Glass Ceramics:

Answer 25

Vita Mark 2, IPS Emax CAD, Celtra Duo Ultra

Question 26

skipped
Zirconia:

Answer 26

IPS Emax ZirCAD, 3M Chairside Zirconia, CEREC Zirconia

Question 27

skipped
Resin-ceramics:

Answer 27

Cerasmart, Vita Enamic
Resin: Telio blocks

Question 28

skipped
CAD/CAM systems:

Answer 28

Itero, E4D, Trios, Planmeca, Carestream.
-More systems come on the market each year.

Question 29

Predominately Glass (veneers)
(4)

Answer 29

-Most translucent optical properties
-Weakest material
-Feldspathic porcelain
-Can ETCH

Question 30

Particle filled Glass Ceramic (eMax)
(4)

Answer 30

-Less translucency
-increased strength
-Lithium Disilicate
-Can ETCH

Question 31

Polycrystalline Ceramic (zirconia)
(4)

Answer 31

-Low translucency
-Highest strength
-Alumina, Zirconia
-Cannot ETCH

Question 32

Resin bonding
(3)

Answer 32

-Can bond tooth to ceramic with the
etchable ceramics
-Use of a “coupling agent” Silane enhances
bond strength
-Resin cement used – either light cure or dual
cure

Question 33

Reinforcement of the crystalline structure
of the ceramic
(2)

Answer 33

-Dispersed Crystalline phase – Higher strength
and fracture resistance
-Lithium Disilicate

Question 34

Transformation Toughening
(3)

Answer 34

-Stress induced transformation
-Unique to zirconia
-Compressive forces at crack tip retard
crack propagation

Question 35

How again does porcelain break?
(2)

Answer 35

-Flexure
-Improper loading (askew occlusion)

Question 36

Resin bonding is a high strength cementation procedure, so
bonding ceramics will — the ability of the ceramic to
flex. Therefore, — strength.

Answer 36

decrease
adds

Question 37

Resin Bonding
-Resin bonding–etchable glass ceramics
—-% increase in glass ceramic crown strength
(4) components

Answer 37

50

HF Etched ceramic surface (retention)
Silane coupling agent (bifunctional monomers form a
chemical bond)
Resin Composite Cement
Etched enamel / dentin –adhesive layer

Question 38

How the resin cement have so much
strength:
(2)

Answer 38

-The movement of the cement into the
dentin tubules forming microtags and
into the porcelain spaces (above).
This forms a matrix that has great
retention.

Question 39

Veneers
-Very thin “sheet” of porcelain as thin as
— mm (minimal thickness)
-Tooth preparation is specific and is
aimed at providing
-Veneers are not under
-These are — bonded to enamel
-Can be the most — dental restoration possible
-Can be so thin, underlying tooth color
can affect — properties.
-Most technically — to fabricate

Answer 39

0.3 to 0.5
aesthetics and
physical support for the veneer.
heavy occlusal loads.
resin
esthetic
optical
difficult

Question 40

Crystalline Reinforcement
-By adding crystalline aspects to the
ceramic, crack propagation is much
more difficult.

Answer 40

Small cracks begin, but
then have a harder time causing
catastrophic failure.

Question 41

-Enamel flexural strength is around — MPa
-Feldspathic Porcelain flexural strength is much
lower at — MPa

Answer 41

300
60-70

Question 42

We discussed how to strengthen the porcelain
material previously. One additional method
to strengthen this porcelain is to add

Answer 42

a metal
substructure.
-Yes! The PFM (porcelain fused to Metal
crowns)!

Question 43

Material only used for Veneers

Answer 43

Feldspathic Porcelain

Question 44

-Enamel flexural strength is around 300 Mpa
-Leucite reinforced ceramic flexural strength
is — MPa

Answer 44

120-160

Question 45

Leucite reinforced Ceramic (Empress)
Would you use this material on a posterior
tooth?
-Crown –
-Onlay/Inlay –

Answer 45

No
maybe (only where
occlusal force is low)

Question 46

Leucite reinforced Ceramic (Empress)
-Would Resin bonding help strengthen this
material?

Answer 46

-Yes. It can be etched and
therefore retention and strength is
increased with resin bonding

Question 47

Leucite reinforced Ceramic (Empress)
-Indications –

Answer 47

anterior crowns, veneers

Question 48

Flexural strength for e.Max is

Answer 48

360-500 Mpa
-Finally stronger than enamel alone!

Question 49

Due to its increased strength, Lithium Disilicate
is used for:
(4)

Answer 49

Veneers
Anterior and Posterior crowns
Anterior bridges (particular cases)
Inlays/Onlays with low occlusal forces

Question 50

Can use resin bonding AND other cements like
Resin Modified Glass Ionomer (RMGI)

Question 51

-Should you use e.Max for a posterior three
unit bridge?

Answer 51

-Not Indicated
-Increased fracture of material

Question 52

Zirconia has a — structure
-This provides — strength
-This provides a surface that is not
abrasive like porcelain, but
instead is

Answer 52

Polycrystalline
increased
gentle on opposing
dentition

Question 53

Resin Bonding will not increase the
— of Zirconia
-Resin bonding will do what for
zirconia?
—-!

Answer 53

strength
Retention

Question 54

-Zirconia needs the internal restoration
surface to be

Answer 54

roughened since it
cannot be etched. (Zirconia
contains no glass to etch)

-Air abrasion
-diamond bur

Question 55

A — is needed for increased bonding
of Zirconia with resin cement

Answer 55

bonding primer

Question 56

Original Zirconia crown was from Glidewell
Lab 10 years ago.
-3Y zirconia crown called —
-Horrible – aesthetic early on
-Poorly defined – anatomy

Answer 56

Bruxir
translucency
occlusal

Question 57

3Y Bruxir flexural strength around — Mpa

Answer 57

1200

Question 58

Ceramics: Zirconia
-Because of its —, any cement can
be used.
-Crown has to be

Answer 58

toughness
”fired” and will shrink to fit.
Shrinks about 25% during firing.

Question 59

-How are zirconia crowns so strong:
-Transformational Toughening
(4)

Answer 59

-Stress induced transformation
-Unique to zirconia
-Compressive forces at crack
tip retard crack propogation

Question 60

Crack initiated; tensile stress at crack tip causes
tetragonal→— shape change

Answer 60

monoclinic

Question 61

Volume increase with associated compressive
stresses in vicinity of crack tip leading to

Answer 61

crack closure

Question 62

Phase transformation from tetragonal (T) to monoclinic (M)
has associated volume increase (3-5%) →

Answer 62

high internal
stresses.

Question 63

Making Zirconia more translucent:
(4)

Answer 63

-Adding more Yttria increases
translucency
-This results in decreased strength
-ITS IMPORTANT TO ASK YOUR LAB
WHAT KIND OF ZIRCONIA
YOU ARE USING!!!

Question 64

Ceramics: Zirconia-Improving on original zirconia
-To improve esthetics,

Answer 64

a zirconia core is
used and then porcelain is fused
to create the tooth shape and
color.

Question 65

A — is a porcelain fused to
Zirconia.

Answer 65

PFZ crown

Question 66

Early candidates in this market were
not very successful. Lots of
porcelain fractures. However,
newer formulations are finding
greater success and ethetics!
-Monolithic options were/are not very
esthetic but are

Answer 66

much stronger
and do not fracture easily. If they
were esthetic, they were not likely
to be strong

Question 67

Ceramics: Zirconia
-Failures?
PFZ crowns initially had failures
Mostly in the

Answer 67

posterior

Question 68

Zirconia would not fail (very rare), it would be the — that would fracture.

Answer 68

porcelain

Question 69

Zirconia would not fail (very rare), it would be the porcelain that would fracture.
(3)

Answer 69

-Lack of porcelain support in zirconia substructure
-Occlusion, Occlusion, Occlusion
-The bond between the Zirconia and the porcelain would not be able to overcome the
difference in Coefficient of Thermal Expansion between the Zirconia core and the veneering
porcelain

Question 70

Ceramics: Zirconia
-Additional benefits
With some dark teeth, a zirconia core
PFZ crown can be used to

Answer 70

mask dark
dentin

Question 71

Ceramics: Zirconia
-Additional benefits
-Because Zirconia is not brittle, any —
technique can be used.
-Zirconia copings can be as thin as —
because Zirconia is strong
-A monolithic zirconia crown preparation can be
very — similar to gold or pfm crown
preparations
-Zirconia is friendly to opposing teeth. It is
considered —
-Can use — finish lines for
preparations
-Zirconia masks dark — and is beginning to
balance that masking with translucency

Answer 71

cement
0.4mm
conservative
“Wear Friendly”.
chamfer or shoulder
dentin

Question 72

-If Zirconia is the Superman of crown material, what’s Zirconia’s kryptonite?
-Zirconia’s use is now very —. Its only really 10 years old in the market.
While its strength is high, that strength is compromised to make it
aesthetic. What’s the sweet spot for this balance?

Answer 72

heavy

Question 73

If you want the most esthetic anterior restoration, what material would you choose?
- Veneer –
-Crown –

Answer 73

Feldspathic Porcelain
e.Max or Empress

Question 74

If you want the most esthetic posterior restoration, what material would you
choose?
-Crown –
-Crown -

Answer 74

e.Max
5Y Zirconia

Question 75

If you have a bruxing patient, what posterior restoration material would you use?
-Crown –
-Crown –

Answer 75

3Y Zirconia
Gold

Question 76

Ceramics: Comparison: Occlusion
Anterior Teeth
(2)

Answer 76

-Lower occlusal forces – Less strength requirement – higher esthetic requirement
-Feldpathic Porcelain veneer resin bonded are still the most realistic tooth
restoration

Question 77

Ceramics: Comparison: Occlusion
Posterior teeth
(2)

Answer 77

-Higher occlusal forces – higher strength requirement – less esthetic requirement
-What does the patient present with? Not a grinder – e.Max or Zirconia

Question 78

Ceramics: Comparison: Occlusion
Bruxer/Clencher and needs a bridge?
(3)

Answer 78

-fully veneered porcelain not a great option
-Recommend monolithic zirconia or PFM.
-Possible monolithic material with buccal porcelain.

Question 79

Ceramics: Comparison: Occlusion
Ceramic wear on opposing teeth
(4)

Answer 79

-Be aware of this side affect of ceramics!!
-Ceramics with glass wear opposing teeth.
-Zirconia less so
-Gold and metal occlusal least amount of wear.

Question 80

Glass Ceramic Veneers
-Only adjust after
-Use
-Polish with
- — surface should not be adjusted if at all possible

Answer 80

seated and bonded with resin cement (too fragile to
adjust outside the mouth predictably.
fine diamonds with a little water
diamond impregnated polishing paste
Internal

Question 81

e.Max (Lithium Disilicate)
(4)

Answer 81

-Adjustment outside the mouth is acceptable
-Fine diamond with a little water
-Polish with diamond impregnated polishing paste
-Internal surface should not be adjusted if at all possible

Question 82

Zirconia
(4)

Answer 82

-Adjustment outside the mouth is acceptable
-Fine diamond with a little water
-Polish with diamond impregnated polishing paste
-Internal surface needs either air abrasion or diamond bur roughing prior
to cementing!

Question 83

Ceramics: Adjusting
-After adjustment with bur is done:
(3)

Answer 83

-Course polisher
-Fine polisher
-Felt wheel or brush with fine diamond polishing paste

Question 84

Resin Cements
-Requires — free environment
-Required for
-Requires — for etched
ceramics

Answer 84

moisture
low strength ceramics
silane coupling agent

Question 85

Primer containing MDP
(methacryloyloxydecyl dihydrogen
phosphate) placed on zirconia can
enhance the

Answer 85

chemical bond to cements
containing resin.

Question 86

Resin Modified Glass Ionomer
-Contraindicated in
-Acceptable for —

Answer 86

low strength ceramics
-Water absorption with setting of cement
leading to slight expansion and
possible fracture of ceramic at thin
margin area

Zirconia