Gypsum

Question 1

what is a study model / cast

Answer 1

A positive replica of dentition produced from the impression (which is a negative representation of a patient’s dentition)

Question 2

what are the purposes of a study model / cast

Answer 2

○ Records the position, shape of teeth
○ Aids visualisation / assessment of dentition
○ Enables manufacture of dental prostheses § Eg partial dentures, crowns etc

Question 3

name the uses of gypsum

Answer 3

• Cast
○ Plaster / stone

• Die
○ Stone / improved stone

• Mould material
○ Stone

• Investment binder
Stone

Question 4

what does the manufacturing determine with gypsum

Answer 4

what type of gypsum is produced

Question 5

what is the reaction that occurs with gypsum manufacture

Answer 5

CaSO4.2H2O. —[heat]—> (CaSO4)2.H2O + H2O

Calcium sulphate Dihydrate –[heat]—> Calcium sulphate hemihydrate

Question 6

what are the types of gypsum

Answer 6

• Plaster
○ Beta-hemihydrate

• Dental stone
○ Alpha-hemihydrate

• Densite
Improved stone

Question 7

what does crystalline structure determine

Answer 7

properties

Question 8

how is plaster (beta-hemihydrate) made and what is it like

Answer 8

• Heated in open vessel

* Large porous, irregular crystals

Question 9

how is dental stone (alpha hemihydrate) made and what is it like

Answer 9

• Heated in an autoclave

* Non-porous, regular crystals, requires less water

Question 10

how is densite (improved stone) made and what is it like

Answer 10

• Heated in presence of Ca and Mg chloride

* Compact smoother particles - Smoother then it can be packed in more readily and made more dense

Question 11

what is the setting reaction

Answer 11

reverse of manufacture

(caSO4)2.H2O + 3H2O —> 2CaSO4.2H2O

hemihydrate —> dihydrate

powder + water = gypsum

Question 12

what are the mixing ratios

Answer 12

Water Powder
Plaster 50-60ml 100g
Stone 20-35ml 100g
Theoretic18.6ml 100g

Question 13

why does the theoretical mixing ratios differ from the actual mixing ratios

Answer 13

Practise and experience tells you that these ratios are what are needed to mix the material with water rather than the theoretic ratio
Excess water
- Needed for a workable mass
- Affects properties

Question 14

what is the setting process for gypsum

Answer 14

1)
- hemihydrate dissolves
- dihydrate forms
- dihydrate solubility low - supersaturated solution
- impurities present

2)

• dihydrate crystals precipitate on impurities as crystals
• more hemihydrate dissolved
• continues until all hemihydrate dissolved (until you are just left with dihydrate crystals)

3)
initial set
- dihydrate crystals come into contact (ie push apart)
- expansion starts
- properties of weak solid and will not flow
- can be carved / manipulated / shaped

4)
final set
- strong and hard enough to be worked (large dihydrate crystals of different sizes all packed together)
- strength continues to develop

Question 15

what are initial and final setting times measured using

Answer 15

gilmore needles

Question 16

where is excess water found during setting

Answer 16

trapped in the powder mass

Question 17

what happens to the excess water on completion of setting

Answer 17

excess water evaporates
voids are produced (porosity)
this brings a problem as any porous material is relatively weak

Question 18

what is the compressive strength of gypsum

Answer 18

Compressive (~20-35MPa)

This is around a tenth of the compressive strength of composite resin

Question 19

what is the hardness like of gypsum

Answer 19

• Hardness - low
○ Remember hardness is not strength as it refers to just the surface
○ With gypsum you don’t want the surface to scrape parts off or be worn off as it is passed between clinic and the lab etc
Want the surface to remain in tact but as it has low hardness then you need to handle it with care to protect it from chipping

Question 20

what are the typical expansion values of gypsum

Answer 20

Plaster = 0.2-0.3%
Stone = 0.08-0.1%
Densite (improved stone) = 0.05-0.07%

expansion should ideally be 0%

Question 21

explain the strengths of gypsum

Answer 21

• Develops over 24 hour period
• Stone stronger as it requires less water for workable mix (less porous)
• Improved stone (deniste) strongest (~35MPa) but Plaster is weakest (~12MPa)

Question 22

what happens to the setting time and expansion of gypsum if you increase powder, spatulation and impurities

Answer 22

setting time decrease

expansion increases

Question 23

what effect down chemicals have on the setting time and expansion

Answer 23

can either increase or decrease the setting time but will always decreases the expansion

Question 24

how does spatulation affect the gypsum setting

Answer 24

• Increase spatulation breaks down growing crystals
• Fragments act as nuclei of crystallisation
○ Centres around which the crystallisation takes place
○ More crystals come into contact more regularly
• More growing crystals - come into contact sooner

• Hence
○ Decreased setting time
○ Increase expansion

Spatulation = how you mix

Question 25

how does the powder / water ratio affect gypsum setting

Answer 25

• Increasing powder
○ More nuclei of crystallisation per unit volume
○ Crystals come into contact sooner
○ Faster set and greater expansion

• Decreasing powder
○ Converse

Question 26

why should expansion on setting be a small percentage

Answer 26

• Allows for model to be a little big

So crowns, bridge and dentures wont be too tight a fight when placed in the mouth

Question 27

how does temperature affect setting times for gypsum

Answer 27

• Conflicting mechanisms
• Rate of diffusion of ions increases with increase in temperature
• Solubility of hemihydrate decreases with an increased temperature
• Large and unpredictable behaviour

Be careful with temperature

Question 28

how does potassium sulphate K2SO4 affect setting time

Answer 28

Produces syngenite (K2 (CaSO4)2 . H2O)
Crystallises rapidly - encourages growth of more crystals
Decreases setting time

Question 29

how does borax affect setting time

Answer 29

Forms calcium borate - deposits on dihydrate crystals
Delays setting process (increases setting time)

Very rarely have pure
materials - collaboration of different materials

Question 30

is gypsum compatible with impression material

Answer 30

Dental stone mode surface detail depends on type of impression material
○ Needs to be chemically compatible
○ Must “wet” the impression material § Ie no resistance to flow over surface, avoid bubble formation § Don’t want deformation

Question 31

what is the problem with gypsum with regards to surface detail

Answer 31

• Ideally gypsum reproduces the fine detail on the impression material
• But gypsum is inherently porous, resulting in a relatively rough surface - about 28 to 40um (good enough for most applications)
○ Grainy sort of appearance
• cf impression material standard
○ Material must reproduce a 50um wide groove
Slightly better than that standard / good enough

Question 32

what are the advantages of gypsum

Answer 32

○ Dimensionally accurate and stable § Worst will be 0.3% bigger than it should be
○ Low expansion (<0,1%) of stone / densite
○ Good colour contrast

Question 33

what are the disadvantages of gypsum

Answer 33

○ Low tensile strength
○ Poor abrasion resistance
○ Very brittle
○ Surface detail less than elastomer impression (~20um groove)
○ Poor “wetting” of some impression materials
§ Materials need to be compatible, Don’t assume - ask / find out