Sheet Metal Fabrication

CNC Machining
2014-07-26
Production Material Selection
2014-07-26

Sheet Metal Fabrication

 

Sheet metal fabrication is a classification of manufacturing processes that shape a piece of sheet metal into the desired part through material removal and/or material deformation. Sheet metal, which acts as the workpiece in these processes, is one of the most common forms of raw material stock. The material thickness that classifies a workpiece as sheet metal is not clearly defined. However, sheet metal is generally considered to be a piece of stock between 0.006 and 0.25 inches thick. A piece of metal much thinner is considered to be “foil” and any thicker is referred to as a “plate”. The thickness of a piece of sheet metal is often referred to as its gauge, a number typically ranging from 3 to 38. A higher gauge indicates a thinner piece of sheet metal, with exact dimensions that depend on the material. Sheet metal stock is available in a wide variety of materials, which include the following:

  bending-diagramBending Diagram

deep-drawingDeep Drawing

deep-drawing-sequence-smallDeep Drawing Sequence

  • Aluminum
  • Brass
  • Bronze
  • Copper
  • Magnesium
  • Nickel
  • Stainless steel
  • Steel
  • Tin
  • Titanium
  • Zinc

 

 

Sheet metal can be cut, bent, and stretched into a nearly any shape. Material removal processes can create holes and cutouts in any 2D geometric shape. Deformation processes can bend the sheet numerous times to different angles or stretch the sheet to create complex contours. The size of sheet metal parts can range from a small washer or bracket, to midsize enclosures for home appliances, to large airplane wings. These parts are found in a variety of industries, such as aircraft, automotive, construction, consumer products, HVAC, and furniture.

Sheet metal fabrication processes can mostly be placed into two categories – forming and cutting. Forming processes are those in which the applied force causes the material to plastically deform, but not to fail. Such processes are able to bend or stretch the sheet into the desired shape. Cutting processes are those in which the applied force causes the material to fail and separate, allowing the material to be cut or removed. Most cutting processes are performed by applying a great enough shearing force to separate the material, and are therefore sometimes referred to as shearing processes. Other cutting processes remove material by using heat or abrasion, instead of shearing forces.

 

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Capabilities

Typical Feasible
Shapes: Flat
Thin-walled: Cylindrical
Thin-walled: Cubic
Thin-walled: Complex
Part size: Area: Up to 80 ft²
Weight: 0.5 oz – 100 lb
Materials: Metals
Alloy Steel
Carbon Steel
Stainless Steel
Aluminum
Copper
Lead
Magnesium
Nickel
Tin
Titanium
Zinc
Surface finish – Ra: 32 – 125 μin 16 – 250 μin
Tolerance: ± 0.01 in. ± 0.002 in.
Max wall thickness: 0.08 – 0.5 in. 0.001 – 1.0 in.
Quantity: 1000 – 100000 1 – 1000000
Lead time: Weeks Hours
Advantages: Can form complex shapes
Many material options
High production rate
Low labor cost
Short lead time possible
Disadvantages: Limited to constant part thickness
Part may require several operations and machines
Large amount of scrap
Applications: Brackets, panels, cans, utensils

 

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