期刊
METALS
卷 11, 期 7, 页码 -出版社
MDPI
DOI: 10.3390/met11071111
关键词
7075 aluminum alloy; hot stamping; friction coefficient; inverse problem optimization
资金
- Natural Science Foundation of Jilin Province of China [20200201056JC]
Research shows that using different lubricants can improve the quality of aluminum alloy hot stamped parts, with molybdenum disulfide lubricant showing better performance. The friction coefficients under different lubrication conditions can be accurately obtained using the inverse problem optimization method.
Aluminum alloy hot stamping technology can improve the formability of materials and obtain parts with high dimensional accuracy. Friction behavior in the hot stamping process is very important for forming quality. Accurate friction coefficient is helpful to improve the prediction accuracy of forming defects. It is hard to obtain the friction coefficient by simple experiments due to the complicated thermal-mechanical coupling and contact conditions during the hot stamping of aluminum alloys. In order to explore the effect of friction behavior on forming quality, hot stamping experiments of 7075 aluminum alloy U-shaped parts with different lubricants were carried out. The influence of different lubricants on the force-displacement curve, material inflow, surface appearance, and thickness distribution of the formed part was analyzed. The results showed that a good lubrication effect could be obtained with the molybdenum disulfide lubricant. The friction coefficient under different lubrication conditions was obtained by using the inverse problem optimization method. Compared with the experimental results, the determined friction coefficients could accurately predict the force-displacement curves and the thickness distributions of formed parts under different lubrication conditions.
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