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Defects in CastingsDefects in Castings
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Defects in castings
The general origins of defects lie in three sectors:• 1. the casting design• 2. the technique of manufacture–the method• 3. the application of the technique–‘workmanship’.
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Categories of Defect
• 1. Shaping faults arising in pouring.• 2. Inclusions and sand defects.• 3. Gas defects.• 4. Shrinkage defects due to volume contraction in the liquid
state and during solidification.• 5. Contraction defects occurring mainly or wholly after
solidification.• 6. Dimensional errors.• 7. Compositional errors and segregation.
• 1. Shaping faults arising in pouring.• 2. Inclusions and sand defects.• 3. Gas defects.• 4. Shrinkage defects due to volume contraction in the liquid
state and during solidification.• 5. Contraction defects occurring mainly or wholly after
solidification.• 6. Dimensional errors.• 7. Compositional errors and segregation.
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Casting Quality
• There are numerous opportunities for things to go wrong in acasting operation, resulting in quality defects in the product
• The defects can be classified as follows:– Defects common to all casting processes– Defects related to sand casting process
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Misrun
A casting that has solidified before completely filling moldcavity
Some common defects in castings: (a) misrun
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Cold Shut
Two portions of metal flow together but there is a lack offusion due to premature freezing
Figure 11.22 - Some common defects in castings: (b) cold shut
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Cold Shot
Metal splatters during pouring and solid globules form andbecome entrapped in casting
Some common defects in castings: (c) cold shot
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Shrinkage Cavity
Depression in surface or internal void caused by solidificationshrinkage that restricts amount of molten metal availablein last region to freeze
Some common defects in castings: (d) shrinkage cavity
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Sand Blow
Balloon-shaped gas cavity caused by release of mold gasesduring pouring
Common defects in sand castings: (a) sand blow
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Pin Holes
Formation of many small gas cavities at or slightly belowsurface of casting
Common defects in sand castings: (b) pin holes
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Penetration
When fluidity of liquid metal is high, it may penetrate intosand mold or sand core, causing casting surface to consistof a mixture of sand grains and metal
Common defects in sand castings: (e) penetration
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Mold Shift
A step in cast product at parting line caused by sidewiserelative displacement of cope and drag
Common defects in sand castings: (f) mold shift
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Gas cavities
Description and reasons:
• Cavities in castings, especially in the upper parts of the castings
• Formation during solidification because of decrease of gas solubility
• often in combination with oxide and slag inclusions
• formation of gas cavities depends on the concentration of oxygen,
nitrogen and hydrogen
• the inner surface of the cavities is smooth
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Description and reasons:
• Cavities in castings, especially in the upper parts of the castings
• Formation during solidification because of decrease of gas solubility
• often in combination with oxide and slag inclusions
• formation of gas cavities depends on the concentration of oxygen,
nitrogen and hydrogen
• the inner surface of the cavities is smooth
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Gas cavities
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Gas cavities
Prevention:
• use of dry materials and ladles
• use of clean charge
• degasification of the melt
• look at the mould sands (permeability of gas, vent…)
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Prevention:
• use of dry materials and ladles
• use of clean charge
• degasification of the melt
• look at the mould sands (permeability of gas, vent…)
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Oxide and slag inclusions, nonmetallic inclusions
Description and reasons:
• Classification: endogenous and exogenous inclusions
• endogenous inclusions are caused by the reaction products during the
melting process (especially during deoxidation)
• exogenous inclusion are caused by other materials in the melt
(e.g. refractory lining)
• thin fluid slag can precipitate at the grain boundariesdanger of
formation of hot tears is higher
• Classification of size:
Macro inclusions > 20 μm
Micro inclusions < 20 μm
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Description and reasons:
• Classification: endogenous and exogenous inclusions
• endogenous inclusions are caused by the reaction products during the
melting process (especially during deoxidation)
• exogenous inclusion are caused by other materials in the melt
(e.g. refractory lining)
• thin fluid slag can precipitate at the grain boundariesdanger of
formation of hot tears is higher
• Classification of size:
Macro inclusions > 20 μm
Micro inclusions < 20 μm
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Oxide and slag inclusions, nonmetallic inclusions
Slag inclusions
GX3CrNiMoN17-13-5 GX2CrNiMo18-14-3
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Prevention:
• use of clean charge
• optimization of gating and feeding system (lamellar flow)
• decrease of the dissolved oxygen
• decrease of the overheating temperature
Oxide and slag inclusions, nonmetallic inclusions
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Prevention:
• use of clean charge
• optimization of gating and feeding system (lamellar flow)
• decrease of the dissolved oxygen
• decrease of the overheating temperature
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Example: G42CrMo4• nonmetallic inclusions arise byreason of the reactions during themelting process
Oxide and slag inclusions, nonmetallic inclusions
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Example: G42CrMo4• nonmetallic inclusions arise byreason of the reactions during themelting process
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Shrinkage cavities
Description and reasons:• specific volume of melt is higher than
the specific volume of solid• contraction during solidification andcooling
• feeding is necessary – if the feedingis not optimal formation ofshrinkage cavities
• the shrinkage volume of cast steel isabout 4-7 %
• the inner surface is rough
Liquidshrinkage
Spec
ific v
olum
e
Description and reasons:• specific volume of melt is higher than
the specific volume of solid• contraction during solidification andcooling
• feeding is necessary – if the feedingis not optimal formation ofshrinkage cavities
• the shrinkage volume of cast steel isabout 4-7 %
• the inner surface is rough
Solidificationshrinkage
shrinkage
RT TS TL TP
Spec
ific v
olum
e
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Shrinkage cavities
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GE 300 (GS 60)
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Prevention:• use of optimal feeding system (calculation and simulation)• warranty of directional solidification• use of exothermic feeder sleeve• decrease of the pouring temperature
Shrinkage cavities
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Prevention:• use of optimal feeding system (calculation and simulation)• warranty of directional solidification• use of exothermic feeder sleeve• decrease of the pouring temperature
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Hot tear
Description and reasons:• hot tears are intercrystalline discontinuity• cracks run along the grain boundaries• the risk of cracks at alloys with a high freezing range is higher than witha small freezing range
• the reason are stresses during solidification because of hinderedcontraction (residual stress)
• the main reason for formation of hot tears are the geometry of casting• if melt can flow into the crack - partial or completely annealed hot tearsare possible
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Description and reasons:• hot tears are intercrystalline discontinuity• cracks run along the grain boundaries• the risk of cracks at alloys with a high freezing range is higher than witha small freezing range
• the reason are stresses during solidification because of hinderedcontraction (residual stress)
• the main reason for formation of hot tears are the geometry of casting• if melt can flow into the crack - partial or completely annealed hot tearsare possible
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Hot tear
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Prevention:• design appropriate to casting, prevention of residual stresses, widedifference in the wall thickness and hot spots)
• prevention of hot sand effects
Hot tear
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Prevention:• design appropriate to casting, prevention of residual stresses, widedifference in the wall thickness and hot spots)
• prevention of hot sand effects