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CASTING PROCEDURE

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CASTING PROCEDURE Casting procedure The lost wax casting technique was introduced by TAGGART in 1907 Steps in casting Preparing the wax pattern Spruing the wax ... – PowerPoint PPT presentation

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Title: CASTING PROCEDURE


1
CASTING PROCEDURE
dr shabeel pn
2
Casting procedure
  • The lost wax casting technique was introduced by
    TAGGART in 1907

3
Steps in casting
  • Preparing the wax pattern
  • Spruing the wax pattern
  • Attaching the sprue to crucible former
  • Investing the pattern in the casting ring
  • Burnout of the wax
  • Casting
  • Recovery
  • Finishing and polishing

4
Preparing the wax pattern
  • Prior to casting
  • margin of the wax pattern should be readapted
  • pattern checked for smoothness, finish and
    contour
  • Sprue should be attached to the thickest portion
    of the wax pattern
  • wax pattern can be removed from the die using
    sprue
  • surfactant should be applied on the wax to obtain
    wetting of the investment
  • invested immediately to prevent distortion

5
spruing of wax pattern
  • Sprue is defined as the channel or hole through
    which plastic or metal poured or cast into gate
    or reservoir and then into mold

6
sprue design
  • it must allow the molten wax to escape from the
    mold
  • enable molten metal to flow into the mold with
    minimal turbulence
  • metal within the sprue must remain molten
    slightly longer than the alloy that has filled
    the mold this will act as a reservoir to
    compensate the shrinkage

7
material used for sprue
  • Wax
  • plastic
  • Metal

8
sprue

9
  • Wax preferred for most casting because they melt
    at the same rate as the pattern and allow for
    easy escape for molten wax
  • Plastic resist distortion rigid,
  • may block the escape of wax,
  • hollow plastics are available
  • Metal non rusting metal should be used,
  • removed before casting

10
diameter
  • should be larger than the thickest portion of the
    wax pattern
  • 2.6 mm can be used for most patterns
  • 2.0mm for premolar partial veneer restoration
  • narrow sprue are sufficient for casting to be
    done on centrifugal machine

11
Positioning of the sprue
  • Sprue should be attached to the point of greatest
    bulk
  • 45 angulation near the bulk of the pattern
  • axial wall should have obtuse angle 135
  • This prevents air entrapment during investing and
    suck back porosity after casting
  • attachment should be flared to prevent turbulence
    during metal flow

12
venting
  • Small auxiliary sprues or vent should be placed
    to improve the casting
  • By allowing the gases to escape

13
Attaching the sprue to crucible former
  • Crucible former is conical structure with a base
    placed at one end of the ring ,free end of the
    sprue attached to tip of crucible former
  • The sprue should be adjusted such that terminal
    end of wax pattern is six mm away from free end
    of the investment

14
a
15
Investing the pattern in the casting ring
  • Ideal properties of investment material
  • controllable expansion to compensate for
    shrinkage of cast alloy during cooling
  • Produce smooth castings without nodules
  • Chemical stability at high casting temp
  • Adequate strength to resist casting forces
  • Sufficient porosity to allow gas escape
  • Easy recovery of casting
  • Investment material
  • Gypsm bonded and phosphate bonded

16
Gypsum bonded
  • Alfa hemi hydrate of Gypsum used as binder with
    crystobalite or quartz as refracting material and
    modifiers (coloring matter and reducing agents)
  • satisfy most of the requirement for an ideal
    investment material
  • Not suitable for casting metal ceramic alloys as
    it is unstable at high temperature
  • Three types of expansion
  • Setting expansion
  • Hygroscopic expansion
  • Thermal expansion
  • Used for alloys that fuses below 1,975F
  • Mainly used with type I, II, III, gold alloys

17
Factors increasing the expansion
  • Use of full width ring liner
  • Prolonged spatulation
  • Storage at 100 humidity
  • Lower water powder ratio
  • use of dry liner
  • Use of two ring liners

18
Phosphate bonded investment
  • Composition binder megnesium oxide
  • mono ammonium phosphate
  • filler silica ( quartz or crystabolite form)
  • They are stable at high temp
  • Material of choice for metal ceramic
  • They expand rapidly
  • Due to
  • heat from the setting reaction softens the wax
    and allow freer setting expansion
  • The increase strength of the material at high
    temp restrict the shrinkage of the alloy as it
    cools
  • The powder mixed with colloidal silica reduces
    the surface roughness of casting and it also
    increases expansion thus expansion can be
    conveniently controlled by diluting the colloidal
    silica slightly with distilled water

19
  • High noble alloy -gypsum bonded investment (shows
    hygroscopic expansion)
  • Base metal alloy phosphate bonded investment
    (shows thermal expansion)

20
Ring and ring liners
  • Ring liners
  • Asbestos (due to health hazard )
  • Cellulose Used to aid in uniform expansion of the
    mold
  • Wetting the liner increases the hygroscopic
    expansion
  • It is coated on the casting ring
  • Bench set min for one hour

21
Wax burnout
  • The removal of wax from the mould usually by heat
  • Melted 200c for 30 min
  • It does not melt but sublimes directly to gases
    and escapes through the pores of investment
  • To burnout remaining traces of wax final burnout
    650c for 45 min
  • Gypsum beyond 650c disintegrate investment and
    form sulfur dioxide and dis colour the casting

22
(No Transcript)
23
CASTING TECHNIQUE
  • FAZNA M. ALI
  • 1st Batch

24
Casting technique
  • Setting up the casting machine
  • Pre heating the crucible
  • Weighing the alloy
  • Casting the alloy

25
Casting machine
26
Setting up the casting machine
  • Three clock wise turns and locked in position
    using a pin
  • Oxy-acetylene gas is used ordinary alloys
  • Oxygen gas is used for metal ceramic alloys

27
Pre heating the crucible
  • Freezing of the alloy incomplete casting

28
Weighing the alloy
  • 6 grams for pre-molar retainer castings
  • 9 grams for molar retainer castings
  • 12 grams pontic castings

29
Casting the alloy
  • Heated using open flame from torch
  • Reducing part of flame is used to prevent
    oxidation
  • Flux should be added
  • Melts
  • If the alloy is ready to cast locking pin is
    released and casting is completed

30
recovery
  • Removal of residual investment
  • Quenching with water gypsum bonded disintegrates
  • Using tooth brushes or ultrasonic cleaners
  • Phosphate bonded should be removed using sand
    blasting (aluminium oxide)

31
Casting deffects
  • Distortion
  • Surface roughness and irregularities
  • Discoloration
  • Porosity
  • Incomplete casting

32
Distortion
  • Distortion of wax pattern during fabrication
  • Increased with increase in ambient temperature
    and time lag between fabrication and investing

33
Prevention
  • Proper manipulation of wax
  • Avoid stress on pattern during removal
  • Immediate investment after removal from die

34
Porosity
  • Can occur on internal or external surface
  • Weakens the casting
  • Types A Solidification defects
  • B Trapped gases
  • C Residual air

35
Solidification deffects
  • Localised shrinkage porosity molten alloy
    prematurely solidifies in sprue before
    solidifying in mold space
  • Causediameter of sprue is small ,lack of
    reservoir ,improper sprue attachment-suck back
    porosity
  • Microporositytoo rapid solidification seen as
    small irregular voids
  • Avoided by increasing casting temperature,melting
    temperature

36
TRAPPED GASES
  • Pin hole porosity-tiny spherical voids
  • Cause release of entrapped gases while
    solidification
  • Gas inclusion porosity-larger spherical voids
  • Cause gas inclusion during casting procedure

37
  • Subsurface porosity due to entrapped gases in
    molten alloy
  • Prevention controlling the rate of molten alloy
    entering the mold

38
Residual air
  • Back pressure porosity
  • Causeinability of air to escape through pores in
    the investment ,improper wax elimination ,low
    casting temperature pressure
  • Prevention use of porous investment,proper wax
    burn out ,enough casting pressure temperature

39
Surface roughness and irregularites
  • Surface roughness
  • Cause silica particle in investment
  • Inaccurate powder liquid ratio ,too rapid heating
  • Surface irregularities nodules or fins
  • Cause air bubble attached to pattern ,water film
    on pattern ,careless removal of pattern
  • Prevention correct powder liquid ratio,use of
    mechanical mixer , use of wetting agent

40
Discoloration of casting
  • Appears dark due to coating of oxides
  • Cause under heating ,prolonged heating carbon
    inclusion, high sulfur content of torch flame
  • Removed by pickling

41
Incomplete casting
  • Due to prevention of molten alloy from filling
    the mold space completely
  • Cause improper vending of air due to reduced
    casting pressure ,
  • Preventionadequate casting pressure ,adequate
    alloy

42
Thank You
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