09 Mar Die casting defects causes and troubleshooting
If you are business man or mechanical engineer, its necessary to have a full knowledge on die casting defects which may occur in die casting manufacturing process. It will help you to save time and money when you run a die casting project. Here blow I would like to list the most common die casting defects:
1. Open Blows and Blow Holes
2. Pin Hole Porosity
3. Entrapped Air and other gases
4. Cracked Casting
5. Bent or Twisted Casting
6. Dropped Mould
9. Run out
11. Mis-run and Cold Shut
13. Rat Tail and Buckles
14. Core Shift
The die casting manufacturing process involves a large number of steps including casting design, pattern making, moulding, melting, pouring, shake out, fettling, inspection and finishing. since it’s a complex process, it’s easy to result in defect if any step wrong or inaccurate.
Misrun and Cold Shut:
• A misrun is caused when the section thickness of a casting is so small or the pouring temperature so low that the entire section is not filled before the metal solidifies.
• Cold shut is caused when two streams of metal which are too cold meet but do not fuse together.
• Misrun and cold shut can be minimized by proper design of casting, providing suitable gating and risering and using correct temperature of the melt.
• Shrinkage faults are faults caused by improper directional solidifications, poor gating and risering design and inadequate feeding.
• Solidification leads to volumetric contraction which must be compensated by feeding. If this compensation is inadequate either surface shrinkage or internal shrinkage defects are produced making the casting weaker.
• Shrinkage faults can be reduced by providing proper gating system, pouring at correct temperature and taking care of directional solidification.
Rat Tail and Buckles:
• Rat tails and buckles are caused by the expansion of a thin outer layer of moulding sand on the surface of the mould cavity due to metal heat.
• A rat tail is caused by depression of a part of the mould under compression which appears as an irregular line on the surface of the casting.
• A buckle is a more severe failure of the sand surface under compression.
• The mould must provide for proper expansion instead of forming compressed layers to avoid this defect.
• A core shift results from improper support or location of a core.
• It results in a faulty cavity or hole in the casting.
• It can be reduced by providing proper support for cores and correct alignment with the mould.
• Inclusions are any foreign materials present in the cast metal.
• These may be in the form of oxides, slag, dirt, sand or nails.
• Common sources of these inclusions are impurities with the molten metal, sand and dirt from the mould not properly cleaned, break away sand from mould, core or gating system, gas from the metal and foreign items picked on the mould cavity while handling.
• Inclusions are reduced by using correct grade of moulding sand and proper skimming to remove impurities.
Cuts and Washes:
• Cuts and washes are caused by erosion of mould and core surfaces by the metal flowing in the mould cavity.
• These defects are avoided by proper ramming, having sand of required strength and controlling the turbulence during pouring.
• If the sand grains used are very coarse or the metal poured has very high temperature the metal is able to enter the spaces between sand grains to some distance. Such sand becomes tightly wedged in the metal and is difficult to remove.
• The remedy is to remove the causes mentioned above.
• Hard spots are caused by chilling action of moulding sands in some metals like gray cast iron with insufficient silicon.
• These spots are extremely hard and often lead to machining difficulties.
• Hard spots are avoided by providing uniform cooling and pouring at the right temperature.
• Scabs are rough, irregular projections on surface of castings containing embedded sand.
• Scabs occur when a portion on the face of mould or core lifts and metal flows underneath in a thin layer.
• They are caused by using too fine sand grains or using sand of low permeability or moisture content.
• They may also be caused by uneven mould ramming or by intense local overheating.
• Scabs can be reduced by mixing additives like sea coal, wood flour or dextrin in the sand, providing uniform ramming and pouring with correct velocity.
• Hot tears are ragged irregular internal or external cracks occurring immediately after the metal have solidified.
• Hot tears occur on poorly designed castings having abrupt section changes or having no proper fillets or corner radii. Wrongly placed chills.
• Improper placement of gates and risers or incorrect pouring temperatures can also produce hot tears.
• Hot tears are also caused by poor collapsibility of cores.
• If the core does not collapse when the casting is contracting over it stresses will be set up in the casting leading to its failure.
• Hot tears can be eliminated by improved design, proper directional solidification, and uniform rate of cooling, correct pouring temperature and control of mould hardness.
I think you would have some basic knowledge on how a die casting defect will be, and just contact us if you still have some question or die casting project to run.