Progressive Die stamping parts

Progressive die stamping can quickly and efficiently produce thin sheet metal, complex structures that require multiple processing steps, and small product areas. The unit processing component is very low, making it suitable for large-scale production. With the automatic feeding system of the coil, it can achieve unmanned continuous operation.

At present, we produce some copper socket contacts, socket panels, electronic components, and control units for automation equipment. We can perform processes such as cutting, forming, flanging, rounding, stretching, and tapping on coil materials

Machinable materials include

copper alloy: H59-3，H62,  Pure copper, with good conductivity, suitable for conductive components in electronic products

Low carbon steel and galvanized sheet: SPCC, SPHC, DC01, etc., 1010, these materials have good stamping performance and low cost

Stainless steel: 201304, with the characteristics of corrosion resistance and wear resistance, suitable for stamping parts that require high strength and corrosion resistance

Aluminum alloy: lightweight, good formability, suitable for stamping parts that require lightweighting

Progressive die stamping parts have the following advantages and product characteristics:

advantage

High production efficiency: The progressive die stamping production line can complete multiple stamping processes on one machine, significantly improving production efficiency.

Operational safety: The progressive die stamping machine operates safely, reducing the risk of manual operation.

Easy to automate: Progressive die stamping machines can adopt automated devices such as automatic feeding and automatic unloading, suitable for large-scale production.

Space saving: Due to the fact that multiple processes can be completed in one mold, the punching machine and footprint are reduced, saving production space.

Suitable for high-speed production: Progressive molds are often produced using high-speed punching machines, further improving production speed.

Product Features

Multi process integration: Progressive molds can complete multiple processes such as punching, bending, and stretching in one mold, simplifying the production process.

Suitable for small and complex parts: Due to its high precision and efficiency, progressive dies are particularly suitable for producing small and complex parts.

Low material utilization rate: Due to the need for strip feeding in progressive dies, a large amount of waste is generated for workpieces with complex shapes, resulting in relatively low material utilization rate.

High precision: The parts produced by progressive dies have high precision and are suitable for situations that require high precision.

Complex mold structure: The mold structure of progressive dies is complex, making manufacturing and debugging difficult, but easy to operate and suitable for large-scale production.