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Sheet Metal Punching Services In Louisville, KY
Does your product need intricate formed features or perforations with high speed precision? At Classic Sheet Metal, our automated CNC sheet metal punching turrets can process the most detailed patterns. Sheet metal punching is the most efficient way to produce precision fabricated metal products with many holes. For over 60 years, Classic Sheet Metal has been a top choice for sheet metal punching in Louisville, KY.
If you’re in the need of countersinks, embossments, extrusions, and/or louvers, our sheet metal punching machines can also accomplish those tasks. Which is perfect for many of the industries located in Louisville, KY that are in need of customized metal products. Such as perforated hole patterns, electrical knock-outs, part number stamps, and countersunk holes.
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Equipment | 2 - Single Station Strippit Presses 1 - Single Station Strippit Press with auto backgage 5 - CNC Turret Punch Presses to 30 metric tons |
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Automation | Operators trained & certified in the use of multiple machines. | |
Volume Capabilities | Prototype Runs to Several Million Pieces Annually Depending on Product Complexity & Application | |
Materials | Aluminum (all grades) Mild Steel High Strength (HSLA) Steel Cold Rolled Steel Hot Rolled Steel Stainless Steel | Austinitic (300 series) Stainless Steel Specialty Stainless Steel Galvanized Steel Brass Copper |
Data Exchange | ProEngineer AutoCAD Master CAM SolidWorks Part Files Catia CAD/CAM | SolidWorks Assembly Files 2D & 3D DXF Files 2D & 3D IGES Wireframe other CAD/CAM Formats |
Secondary Operations | Tooling Die Tapping Staking Value Added Process Hardware Installation Tapping & Deburring Cleaning | Heat Treating Plating Anodizing Screening Painting Returnable/Reusable Packaging |
Sheet Metal Punching: Defined
Sheet metal punching in metal fabrication is the process of using a machine to press a shape through a sheet of metal and into a die to create the desired shape in the metal. This is most commonly done by use of a turret, a computer numerical controlled machine that houses tools and their corresponding dies in a revolving indexed turret. These machines use hydraulic, pneumatic, or electrical power to press the shape with enough force to shear the metal. The shape is formed by pressing the material against a die with a huge force. The shear forces generated between the material and die separate the material into the desired shape. The desired shape is not obtained, however, as burred edges and rough surfaces are formed. These edges and surfaces must be further processed until the desired shape is achieved.