Waxes And Casting

Question 1

Requirements for inlay wax

Answer 1

On softening, should be able to mould into homogenous mass without formation of lamination or flakes

Low thermal co efficient of expansion

Wax should burn out of mould without leaving residue

Question 2

What type of wax do you use for direct technique inlay

Answer 2

Type 1 wax

Wax colour should contrast with hard and soft tissue

Fully mouldable at temperature above that of mouth, hard at mouth temperature so that can withdraw without distortion

Question 3

What wax do you use for indirect technique inlay

Answer 3

Type 2 wax

Should not chip or flake on carving to a fine edge at room temperature

Low solidification temperature, melt at low temperature

Solidification temperature should not be too low so that will not flow during carving

Question 4

What is the main component of inlay wax

Answer 4

Paraffin wax which has low melting temperature

Question 5

Properties of wax

Answer 5

Low thermal conductivity, take time to heat uniformly and to cool

High clt hence shrinkage errors when direct wax pattern is made, especially cooling under pressure

Elastic modulus ????

Adequate flow at specific temperatures to record detail, low flow at other temps for dimensional stability

Question 6

Describe the flows of type 1 and type 2 wax

Answer 6

Type 1: flow less than 1% at 37ºC

Type 2: flow less than 1% at 30ºC

Both minimal flow at 45ªC

Question 7

How should you soften wax for direct inlay technique

Answer 7

Soften wax using annealer or flame (use hot air above flame)

Question 8

What are wax sprues used for

Answer 8

Venting sprues to allow air to escape during casting, prevent formation of back pressure porosity

Question 9

What should you fill core of metal sprie with and why

Answer 9

Fill with sticky wax to prevent distortion on spruing and to increase surface contact between external surface of sprue and wax pattern to strengthen attachment

Question 10

What happens if you use a corrosive metal for a sprue

Answer 10

Contaminate alloy which will absorb contaminants, casting contaminated

Question 11

What is the diameter of the sprue

Answer 11

1-2.6mm

Question 12

What is a wax reservoir

Answer 12

Small amount of wax attached to sprue 1mm away from pattern , especially for small sprues

Question 13

What is the function of wax reservoir

Answer 13

Prevent localised shrinkage porosity at junction of wax pattern and sprue

Molten metal at the reservoir last to solidify, immediately fill the voids in the mould at legit wax pattern due to shrinkage

Question 14

What happens if sprue want large

Answer 14

Metal cool down quickly for gases from wax in the mould to be eliminated especially dense investments, result in back pressure porosity

Question 15

What is back pressure porosity

Answer 15

Incomplete casting, casting with rounded porosity, full wall of mould space not in contact with metal

Question 16

Where should be sprue be placed

Answer 16

Bulkiest portion of pattern away from margins

Eg marginal ridge for class 2

Cannot place at stamp cusp

Question 17

Why do you add wax at the point of contact between sprue and wax pattern

Answer 17

Flare the area so that metal flows into mould more evenly through wider neck, reduce porosity at point of contact

Question 18

Why is sprue placed at 45º

Answer 18

Minimise turbulence and time because hit both walls at same time

Question 19

How long should sprue be

Answer 19

Not more than 6.5mm away from open end of ring. If investment is too thick, result in back pressure porosity. If investment too thin, molten metal shoot through and crack wall

Question 20

When should you invest

Answer 20

Immediately after removal from mouth or die

Question 21

Why should you keep repair and carving of inlay wax pattern to a minimum

Answer 21

Introduce stresses that will distort

Question 22

Requirements of investment material

Answer 22

Harden in relatively short time

Produce smooth surface and fine details and margins on casting

Must not decompose and give off corrosive gases

Porous so that gas can escape

High temperature strength

Sufficient expansion

Question 23

What happens if investment gives off corrosive gases

Answer 23

Cast absorb gases and become brittle and darkened in colour

Question 24

How to remove gyosum bonded investment for gold alloy

Answer 24

Throw in cold water and investment break down

Question 25

How to remove phosphate bonded investment

Answer 25

Does not break dow, remove using sand blaster

Question 26

At what temperature should maximal thermal expansion be atained

Answer 26

Temperature not greater than 700ºC

Question 27

When do you get significant amount of metal thermal shrinkage

Answer 27

Solid state to room temperature

Question 28

What is the expansion gypsum bonded investments must reach

Answer 28

1.25 +- 0.1% which is the shrinkage of gold alloys

Question 29

What is the binder in gypsum bonded investmeent

Answer 29

A-hemihydrate

25-45% of investment material, provides rigidity to investment material

Question 30

What is the refractory in gypsum bonded investment

Answer 30

Silica

Regulate thermal expansion, provide high temperature strength

Question 31

How does refractory cause thermal expansion

Answer 31

When silica heated, change in crystalline form from alpha to beta. Decrease in density and resultant increase in volume

Question 32

Compare expansion of quartz and cristobalite

Answer 32

Quartz has lower expansion during conversion

Question 33

Role of copper and carbon in gypsum bonded investment

Answer 33

Reducing atmosphere to reduce amount of oxides formed, improve casting quality and prevent darkening

Question 34

What is the role of modifier in gypsum bonded investment

Answer 34

Eg boric acid, sodium chloride

Prevent most of the shrinkage when heated above 300ºC. If no modifier, reduce amount of shrinkage so that less absolute shrinkage

Question 35

3 types of gypsum bonded investment

Answer 35

Type 1: casting of inlay/crown, thermal expansion

Type 2: casting of inlay/crown, hygroscopic expansion

Type 3: investment of denture metal bases with gold alloys, thermal expansion

Question 36

Seraphina is an example of

Answer 36

Phosphate bonded investment

Question 37

How does silica cause expansion of investment

Answer 37

Interfere with intermeshing and interlocking of crystals as they form

Question 38

Range of hygroscopic expansion

Answer 38

1.2-2.2%

Question 39

What must the thermal expansion of type 1 gypsum investment be

Answer 39

1.0 to 2.0%

Question 40

What must the thermal expansion of type 2 gypsum investment be

Answer 40

0.0 to 0.6% because expansion should be mainly hygroscopic

Question 41

What are the two components that form the binder in cera fina

Answer 41

Phosphate bonded investment

Ammonium diacid phosphate (soluble in water to form phosphate ion)

MgO2 (react with phosphate ion at room temperature)

Question 42

What provides green strength to phosphate bonded investment

Answer 42

Green strength is rtp strength.

Magnesium ammonium phosphate

Question 43

How does phosphate bonded investment get high temperature strength

Answer 43

Remaining phosphate react with silica at high temperature to form silico phosphate

Question 44

How does viscosity change as spatulation continues

Answer 44

Water is formed, lower viscosity of mix

Question 45

What is carbon added for in phosphate bonded investment

Answer 45

Produce clean casting and facilitate separation of casting from investment

Question 46

What type of alloys should use carbon free phosphate bonded investment

Answer 46

Base metal and silver palladium alloys (fusion temperature above 1504ºC)

Only use for gold alloys

Question 47

What happens if you use carbon in investment for base metal alloy

Answer 47

Embrittle alloy due to formation of carbide

Question 48

Why is there thermal shrinkage between 200-400ºC when phosphate investment mixed with water

Answer 48

Decomposition of binder magnesium ammonium phosphate, with evolution of ammonia

Question 49

What happens when you mix phosphate investment with silica sol instead of water

Answer 49

Silica sol is special liquid

Higher setting and thermal expansion than when mixed with water

No thermal shrinkage from decomposition of binder

Mixed investment can expand hygroscopically (negligible when only water used)

Increase strength of investment

Question 50

Should you hand invest or vacuum invest phosphate investment

Answer 50

Hand invest

Question 51

What is green shrinkage of silica bonded investment

Answer 51

Drying of gel below 168ºC, loss of water and alcohol, volumetric contraction leading to reduced size of mould

Question 52

Why does silica bonded investment have significant thermal expansion

Answer 52

Both binder and refractory are forms of silica that can invert during heating

Question 53

What happens when you heat silica investment over 700ºC

Answer 53

Polysilicic acid gel change to silica with resultant shrinkage

Question 54

What is the refractory and binder for titanium investment

Answer 54

Magnesium oxide as both refractory and binder

Or

Zirconia particles held together by zirconium acetate

Question 55

Why is it hard to get consistent casting for titanium

Answer 55

Formation of titanium oxide

Question 56

Water immersion vs control water added technique

Answer 56

Soak ring under water and cause maximum expansion vs calculate amount of water for desired expansion

Question 57

How does type of silica affect thermal expansion

Answer 57

Cristobalite expands to greater extent than quartz

Need significantly more quartz to counterblaance contraction of gypsum during heating and casting shrinkage (>75%)

Question 58

How does water powder ratio affect thermal expansion

Answer 58

Greater water powder ratio, less thermal expansion

Question 59

What do chemical modfiers do

Answer 59

Increase expansion without excessive amount of silica by eliminating contraction caused by gypsum below 700ºC

Question 60

What happens when investment cools after first heating

Answer 60

Contracts to less than original dimension because of shrinkage of gypsum when first heated

On second heating reach same maximum but internal cracks may develop

Question 61

How does water powder ratio affect strength of investment

Answer 61

Greater water powder ratio, lower strength

Question 62

How do chemical modifidiers affect strength

Answer 62

Increase room temperature strength because more gypsum binder can be added without marked reduction in thermal expansion

Question 63

How does particle size affect porosity of investment

Answer 63

More unfirom particles, greater porosity

Question 64

How do particles affect hygroscopic expansion

Answer 64

Finer particles, more hygroscopic expansion because more particles per unit volume

Question 65

How long should you heat investment for

Answer 65

60 to 90min

Question 66

What temperature should you heat type 2 investment to

Answer 66

Keep thermal expansion to minimum 482ºC

Question 67

What happens if you heat gypsum investment to too high temp

Answer 67

Give off sulfur gas which contaminates the gold colour, cannot be removed by polishing and embrittles casting

Casting rough due to disintegration of investment

Early wear of rings and heating element

Question 68

Rate of heating for investments

Answer 68

Type 1 slowly heat from rtp to required temp

Type 2 can heat up slowly or place in pre heated oven

Question 69

What happens if heating is too rapid (of investment)

Answer 69

Flaking/fracture of investment due to steam pressure

Cracking due to uneven heating esp cristobalite

Alter size of casting esp quartz