Transactions of Materials and Heat Treatment

Title：Simulation analysis and experimental study on spinning of 304 stainless steel cylindrical parts

Authors： Huang Mingzhi Guo Yaming Zheng Yuan Xu Hengqiu Huang Tao Lu Shengxu

Unit： Institute of Changchun Equipment Technology

KeyWords： 304 stainless steel cylindrical part spinning spinning process parameter wall thickness difference thinning rate

ClassificationCode：TG316.3

year,vol(issue):pagenumber：2025,50(2):178-184

Abstract：

For a series of problems such as peeling, cracking, inner wall scratching and diameter expansion caused by improper combination of spinning process parameters of 304 stainless steel cylindrical parts during the spinning process, taking the 304 stainless steel pipe with a blank wall thickness of 12 mm and an inner diameter of Φ292 mm as the research object, the spinning process of 304 stainless steel cylindrical parts was simulated based on Simufact Forming finite element software, and the influences of different process parameter combinations on equivalent plastic strain, equivalent stress and wall thickness difference were analyzed. The simulation results show that the optimal combination of forming parameters is that the corner radius of rotary wheel rρ=6 mm, the feed speed of rotary wheel v=80 mm·min-1, and the thinning rate ψt=40%. The stainless steel cylindrical parts with the outer diameter of Φ300.8 mm are successfully spun by using the optimal parameter combination for process test, and the wall thickness difference is 0.04-0.08 mm, which proves that the results of finite element simulation are of great significance for the research on the three-wheel staggered spinning process of 304 stainless steel.

Funds：

吉林省科技发展计划项目（20210201046GX）

黄明智(1997-)，男，硕士，研究实习员,E-mail：hmz0318@163.com

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