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How is the thinning and stretching of metal stamping parts formed?
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How is the thinning and stretching of metal stamping parts formed?

출시 날짜:2024-12-23     검색 횟수 :


The thinning and stretching of metal stamped parts is generally a forming process carried out after the deep drawing process or the cold extrusion process to complete the extremely thin-walled cup-shaped parts, and can also be used to complete the forming of extremely thin-walled tube parts. Thinning and stretching is also a relatively common process in stretching processes, and is generally used to make work with different thickness of the wall and the bottom, such as thin-walled tubular blanks for multi-layer capacitors, etc. Thinning and stretching is carried out at room temperature.

Materials commonly used for thinning and stretching are: copper, oxygen-free copper, phosphor bronze, aluminum, aluminum alloy, low carbon steel, stainless steel, etc.

First, the characteristics of thinning and stretching:

1. The gap between the concave and punch is smaller than the thickness of the blank, while the straight wall part of the blank is pressed when passing through the gap, causing significant thinning phenomenon, which increases the height of the side wall, so it is called thinning and stretching.

2. The Metal Stamping parts are thinner and have high tensile quality, the wall thickness is relatively uniform, the wall thickness deviation is within 0.01mm, and the surface roughness Ra value is below 0.2um. And due to the two-way compression, the grains are fine, which improves the strength; How is the thinning and stretching of metal stamping parts formed?(pic1)

3. The remaining stress of thinning tensile parts is large, and some even exhibit cracking during storage. This phenomenon can be eliminated by using low temperature tempering.

4. There is no wrinkling problem (compared to non-thinning stretching), and no edge holder is required.

Second, there are two ways to thin and stretch:

1. The wall thickness becomes thinner, and the inner diameter is also reduced - the deformation and stress are more complicated, and the workpiece is prone to cracking, so it is generally not selected;

2. The wall thickness becomes thinner and the inner diameter does not decrease significantly - this is a more commonly used method.

This article is from EMAR Mold Co., Ltd. For more EMAR related information, please click: www.sjt-ic.com,