应变诱导薄板表面粗化及其对金属成形和零件性能的影响

IF 3.3 Q2 ENGINEERING, MANUFACTURING

Journal of Manufacturing and Materials Processing Pub Date : 2023-09-27 DOI:10.3390/jmmp7050174

Úlfar Arinbjarnar, Rune Juul Christiansen, Maximilian Knoll, Karen Pantleon, Morten Stendahl Jellesen, Chris Valentin Nielsen

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引用次数: 0

摘要

金属板材的拉伸导致表面粗糙度的变化。在本研究中，AISI 201和AISI 304不锈钢箔在单轴拉伸下进行应变，以使其表面粗糙化。然后，对所得表面的耐蚀性、电阻率、磁场密度和润滑摩擦进行了评估。研究了应变速率对表面粗化的影响，进而对刀具摩擦、耐蚀性和变形诱发马氏体形成的影响。在低应变速率下，AISI 304材料比AISI 201材料表现出更高的粗化。润滑摩擦明显受到应变箔表面变化的影响。在模拟微成形过程时，应尽可能包括应变引起的变化的影响，以保持模拟的高保真度。在本工作测试的范围内，应变速率对腐蚀性能的影响很小;然而，在高应变速率下拉伸的材料，马氏体分数降低。

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Strain-Induced Surface Roughening of Thin Sheets and Its Effects on Metal Forming and Component Properties

Straining of sheet metal leads to surface roughness changes. In this study, foils of AISI 201 and AISI 304 stainless steel were strained in uniaxial tension to impose roughening of their surfaces. Thereafter, the corrosion resistance, electrical resistivity, magnetic field density, and lubricated friction of the resulting surfaces were evaluated. The effect of strain-rate on the surface roughening, and thereby on the friction against tools, corrosion resistance, and occurrence of deformation-induced martensite was investigated. The AISI 304 material showed higher roughening than AISI 201 at low strain-rate. Lubricated friction is clearly affected by the changes to the surface of the strained foils that occur. When simulating a micro-forming process, the effect of strain-induced changes should be included where possible to maintain a high fidelity of the simulation. Strain-rate, in the range tested in this work, had only a minor effect on corrosion properties; however, the martensite fraction was reduced for material elongated at higher strain-rates.

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