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metals the mold life is longer but thermal fatigue and erosion usually limit the life to 10,000 to 120,000 cycles. The mold life is dependent on four factors: the mold material, the pouring temperature, the mold temperature, and the mold configuration. Molds made from gray cast iron can be more economical to produce but have short mold lives. On the other hand, molds made from H13 tool steel may have a mold life several times greater. The pouring temperature is dependent on the casting metal, but the higher the pouring temperature the shorter the mold life. A high pouring temperature can also induce shrinkage problems and create longer cycle times. If the mold temperature is too low
279:) casting uses a gas at low pressure, usually between 3 and 15 psi (20 to 100 kPa) to push the molten metal into the mold cavity. The pressure is applied to the top of the pool of liquid, which forces the molten metal up a refractory pouring tube and finally into the bottom of the mold. The pouring tube extends to the bottom of the ladle so that the material being pushed into the mold is exceptionally clean. No risers are required because the applied pressure forces molten metal in to compensate for shrinkage. Yields are usually greater than 85% because there is no riser and any metal in the pouring tube just falls back into the ladle for reuse.
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160:. The process is then started all over again, but preheating is not required because the heat from the previous casting is adequate and the refractory coating should last several castings. Because this process is usually carried out on large production run work-pieces automated equipment is used to coat the mold, pour the metal, and remove the casting.
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The main advantages are the reusable mold, good surface finish, good dimensional accuracy, and high production rates. Typical tolerances are 0.4 mm for the first 25 mm (0.98 in) for the first inch) and 0.02 mm for each additional centimeter (0.002 in per in); if the dimension
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resistance, but other materials include steel, bronze, and graphite. These metals are chosen because of their resistance to erosion and thermal fatigue. They are usually not very complex because the mold offers no collapsibility to compensate for shrinkage. Instead the mold is opened as soon as the
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There are three main disadvantages: high tooling cost, limited to low-melting-point metals, and short mold life. The high tooling costs make this process uneconomical for small production runs. When the process is used to cast steel or iron the mold life is extremely short. For lower melting point
216:. In the process the material is poured into the mold and allowed to cool until a shell of material forms in the mold. The remaining liquid is then poured out to leave a hollow shell. The resulting casting has good surface detail but the wall thickness can vary. The process is usually used to cast
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The metal is poured at the lowest practical temperature in order to minimize cracks and porosity. The pouring temperature can range greatly depending on the casting material; for instance zinc alloys are poured at approximately 370 °C (698 °F), while Gray iron is poured at approximately
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is used in automotive dashboard manufacture, for soft-panel interiors with artificial leather, where a free-flowing (which behave like a liquid) powder plastic compound, either PVC or TPU, is poured into a hot, hollow mold and a viscous skin forms. Excess slush is then drained off, the mold is
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As stated above, the mold is heated prior to the first casting cycle and then used continuously in order to maintain as uniform a temperature as possible during the cycles. This decreases thermal fatigue, facilitates metal flow, and helps control the cooling rate of the casting metal.
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Vacuum permanent mold casting retains all of the advantages of LPPM casting, plus the dissolved gases in the molten metal are minimized and molten metal cleanliness is even better. The process can handle thin-walled profiles and gives an excellent
321:. A draft of 2 to 3° is required. Wall thicknesses are limited to 3 to 50 mm (0.12 to 1.97 in). Typical part sizes range from 100 g to 75 kg (several ounces to 150 lb). Other advantages include the ease of inducing
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are produced, but if the mold temperature is too high then the cycle time is prolonged and mold erosion is increased. Large differences in section thickness in the mold or casting can decrease mold life as well.
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Venting usually occurs through the slight crack between the two mold halves, but if this is not enough then very small vent holes are used. They are small enough to let the air escape but not the molten metal. A
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Mechanical ejectors in the form of pins are used when coatings are not enough to remove casts from the molds. These pins are placed throughout the mold and usually leave small round impressions on the casting.
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The vast majority of LPPM casting are from aluminum and magnesium, but some are copper alloys. Advantages include very little turbulence when filling the mold because of the constant pressure, which minimizes
251:. It uses less material than solid casting, and results in a lighter and less expensive product. Hollow cast figures generally have a small hole where the excess liquid was poured out.
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The gravity process begins by preheating the mold to 150–200 °C (302–392 °F). to ease the flow and reduce thermal damage to the casting. The mold cavity is then coated with a
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formation. Mechanical properties are about 5% better than gravity permanent mold castings. The disadvantage is that cycles times are longer than gravity permanent mold castings.
304:. Mechanical properties are usually 10 to 15% better than gravity permanent mold castings. The process is limited in weight to 0.2 to 5 kg (0.44 to 11.02 lb).
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by changing the mold wall thickness or by heating or cooling portions of the mold. The fast cooling rates created by using a metal mold results in a finer
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Molds for the casting process consist of two halves. Casting molds are usually formed from gray cast iron because it has about the best
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is then poured into the mold. Soon after solidification the mold is opened and the casting removed to reduce chances of
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add an additional 0.25 mm (0.0098 in). Typical surface finishes are 2.5 to 7.5 μm (100–250 μin)
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must also be included to compensate for shrinkage. This usually limits the yield to less than 60%.
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There are four main types of permanent mold casting: gravity, slush, low-pressure, and vacuum.
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casting is solidified, which prevents hot tears. Cores can be used and are usually made from
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Degarmo, E. Paul; Black, J. T.; Kohser, Ronald A. (2003),
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is a variant of permanent molding casting to create a
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118:fuel injection housings
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39:Permanent mold casting
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703:Investment (Lost wax)
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480:. McGraw-Hill. 2003.
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457:. Retrieved
453:the original
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315:parting line
313:crosses the
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671:Centrifugal
228:bases, and
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877:Metallurgy
747:Components
676:Continuous
459:2009-11-04
346:References
218:ornamental
181:or metal.
142:refractory
18:Hollowcast
872:Machining
867:Jewellery
696:Lost foam
691:Full mold
664:Processes
331:undercuts
238:Christmas
158:hot tears
146:mold wash
67:magnesium
63:aluminium
907:Category
882:Smithing
230:statuary
91:graphite
892:Welding
862:Forming
852:Casting
820:Foundry
779:Pattern
657:Casting
339:misruns
128:Process
122:pistons
102:splines
93:molds.
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295:Vacuum
234:Easter
106:wheels
81:, and
71:copper
69:, and
55:vacuum
825:Ingot
815:Dross
810:Draft
789:Sprue
784:Riser
769:Flask
754:Chill
327:grain
289:dross
201:Slush
191:riser
150:cores
98:gears
51:metal
47:molds
41:is a
835:Slag
764:Core
738:Spin
718:Sand
558:ISBN
537:ISBN
518:ISBN
287:and
277:LPPM
236:and
226:lamp
179:sand
168:Mold
87:iron
83:lead
79:zinc
681:Die
319:RMS
212:or
75:tin
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