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Rapport d'activités, sand casting

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Par   •  31 Octobre 2018  •  Rapport de stage  •  333 Mots (2 Pages)  •  467 Vues

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Sand Casting

Sand casting, the most widely used casting process, utilizes expendable sand molds to form complex metal parts that can be made of nearly any alloy. Because the sand mold must be destroyed in order to remove the part, called the casting, sand casting typically has a low production rate. The sand casting process involves the use of a furnace, metal, pattern, and sand mold. The metal is melted in the furnace and then ladled and poured into the cavity of the sand mold, which is formed by the pattern. The sand mold separates along a parting line and the solidified casting can be removed. The steps in this process are described in greater detail in the next section.[pic 1]

Sand casting is used to produce a wide variety of metal components with complex geometries. These parts can vary greatly in size and weight, ranging from a couple ounces to several tons. Some smaller sand cast parts include components as gears, pulleys, crankshafts, connecting rods, and propellers. Larger applications include housings for large equipment and heavy machine bases. Sand casting is also common in producing automobile components, such as engine blocks, engine manifolds, cylinder heads, and transmission cases.[pic 2]

[pic 3]

[pic 4]


Capabilities

Typical

Feasible

Shapes:

Thin-walled: Complex
Solid: Cylindrical
Solid: Cubic
Solid: Complex

Flat
Thin-walled: Cylindrical
Thin-walled: Cubic

Part size:

Weight: 1 oz - 450 ton

Materials:

Metals, Alloy Steel, Carbon Steel, Cast Iron, Stainless Steel, Aluminum, Copper, Magnesium, Nickel

Lead, Tin, Titanium, Zinc

Surface finish - Ra:

300 - 600 μin

125 - 2000 μin

Tolerance:

± 0.03 in.

± 0.015 in.

Max wall thickness:

0.125 - 5 in.

0.09 - 40 in.

Quantity:

1 - 1000

1 - 1000000

Lead time:

Days

Hours

Advantages:

Can produce very large parts
Can form complex shapes
Many material options
Low tooling and equipment cost
Scrap can be recycled
Short lead time possible

Disadvantages:

Poor material strength/ High porosity possible/ Poor surface finish and tolerance/ Seondary machining often required/ Low production rate/ High labor cost

Applications:

Engine blocks and manifolds, machine bases, gears, pulleys[pic 5][pic 6]

[pic 7]

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