Models and dies

Question 1

What do we need in a dental modelling material?

Answer 1

Cheap
Easy to form (from an imp)
Safe
Robust
Rigid, no flex
Will not chemically react with wax, imps etc.
Resistant to wear
Resistance to heat (around 100 degrees)

Question 2

What is plaster of paris, or gypsum

Answer 2

Models and dies
Impression material
Moulds for denture construction
Binder in refractory investments for casting

Question 3

Plaster won’t set in presence of

Answer 3

Agar

But alum soln can be used as barrier

Question 4

What is plaster of paris?

Answer 4

Natural mineral that is mined
Dehydrated gypsum known as plaster of Paris
Upon addition of water, plaster of Paris becomes resgular gypsum again, causing material to harden or set (reversible reaction)

Question 5

Production of plaster

Answer 5

Open kettle at 110-120C
-calcium sulphate beta hemihydrate
-large porous particles
Pressure vessel at 125C
-alpha hemihydrous
-small dense particles
In presence of deflocculants (CaCl2 and MgCl)
-calcium sulphate alpha hemihydrate
-more expensive
-small very dense particles

Question 6

Models and dies

Answer 6

Model - the whole mouth

Die - a tooth )a section of the model), removable to be worked on

Question 7

Dental plaster - key info

Answer 7

White powder in lab
Working time 3-4 mins, initial set 10 mins
Slight expansion on setting of 0.2-0.3%
Exothermic setting reaction, cool once set
Softest but quickest setting
Rarely used on its own as a mould. Used as denture model

Question 8

Dental stone key info

Answer 8

Yellow powder in lab
Working time 3-4 mins, intial set 10 mins
Slight expansion on setting 0.2-0.3%
Exothermic setting reaction, cool once set
Stronger than PoP, takes longer to set
Often used for everyday dental models
-mixed 50/50 with DP to reduce cost and setting time

Question 9

Improved stone key info

Answer 9

Coloured powder in lab
Finer, more regular particles
Working time 5 mins, intial set 30 mins
Expansion on setting 0.05-0.07%
Harder than PoP, but takes longer to set
Usually vaccum mixed
Used where accuracy and wear resistance critical - e.g. crown and bridge models

Question 10

Chemistry of plaster

Answer 10

Calcium sulphate dihydrate

CaSO42H2O –heat–> (CaSO4)2H2O + 3H2O (hemihydrate)

Question 11

Setting process for plaster

Answer 11

Hemihydrate dissolves in water
Super saturated solution forms
Dihydrate precipitates out
More hemihydrate dissolves
Crystal growth
-arms like pom poms until they all meet

Question 12

Expansion of plaster

Answer 12

Interlocking crystals with water in the pores
-uncontrolled ~0.6%
-plaster 0.2-0.3%
-stone 0.08-0.1%
Accelerators and retarders also reduce setting expansion (anti-expansion agents)

Question 13

Bonus properties of PoP

Answer 13

Easy to trim or grind
Can be coloured (appealing shades)
Can be polished to high shean
Sticks to itself

Question 14

Separating plaster

Answer 14

Sodium alginate

When making moulds, you do not want plaster to bond to itself

Question 15

Control of setting characteristics

Answer 15

Water/ powder ratio
-plaster 50ml H2O / 100mg powder
-stone 20-35ml H2O / 100mg powder
Spatulation (over and under vacuum)
Temp
Retarders
-borax
-potassium citrate
-sodium chloride (large amounts)
Accelerators
-potassium sulphate
-gypsum
-sodium chloride (small amounts, causes pink spots)

Question 16

Typical composition of dental plaster

Answer 16

Powder
-calcium sulphate beta-hemihydrate (CaSO$)2H2O
Borax (slows setting rate)
Potassium sulphate (reduces expansion)
Liquid: water

Question 17

‘Rhino rock’

Answer 17

Polymeric model making material

• cures within 30 mins
• dimensionally stable
• 0 expansion
• strong and impact resistant, will not chip
• model white opaque in colour
• can be 3D scanned
• expensive and dangerous to skin

Question 18

Digital models

Answer 18

Intra-oral scanning offers opportunity for digital capture, design and manufacture
-no properties to worry about
-only file to store
CADCAM machine