Effect of hardening law and process parameters on finite element simulation of single point incremental forming (SPIF) of 7075 aluminum alloy sheet

Esmaeilpour Rasoul; Kim Hyunki; Park Taejoon; Pourboghrat Farhang; Agha Akshat; Abu-Farha Fadi

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Effect of hardening law and process parameters on finite element simulation of single point incremental forming (SPIF) of 7075 aluminum alloy sheet

机译：硬化定律和工艺参数对7075铝合金板单点增量成型（SPIF）有限元模拟的影响

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In the last two decades, the advances of using computers in sheet metal forming processes have introduced a novel adjustable process known as incremental sheet forming (ISF) as an optimal method for fast prototyping and low numbers of production. Formability and deformation behavior of ISF process are highly affected by the selected process parameters, such as the toolpath, step size, tool diameter, feed rate, and lubrication. The purpose of this work was to study the effect of these process parameters as well as hardening law on single point incremental forming (SPIF) process. For this work, a truncated-cone geometry was considered as a target shape with 7075-O aluminum alloy sheets. The simulations were conducted with different process parameters, i.e., toolpath type, step size, tool size, feed rate, friction coefficient, and wall angle with respect to the tool force and moment, effective plastic strain distribution and thickness of the part. In addition, three types of hardening laws i.e., isotropic extended Voce type hardening law, combined isotropic-kinematic Chaboche type hardening laws with single and double back-stress terms were applied in the finite element simulation of SPIF process. A detailed comparison of these hardening laws' predictions was made with respect to the tool force and moment, effective plastic strain distribution and thickness of the part.

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来源
《Mechanics & Industry》 |2020年第3期|共14页
作者
Esmaeilpour Rasoul; Kim Hyunki; Park Taejoon; Pourboghrat Farhang; Agha Akshat; Abu-Farha Fadi;
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作者单位

Ohio State Univ Dept Integrated Syst Engn 210 Baker Syst 1971 Neil Ave Columbus OH 43210 USA;

Ohio State Univ Dept Integrated Syst Engn 210 Baker Syst 1971 Neil Ave Columbus OH 43210 USA;

Ohio State Univ Dept Integrated Syst Engn 210 Baker Syst 1971 Neil Ave Columbus OH 43210 USA;

Ohio State Univ Dept Integrated Syst Engn 210 Baker Syst 1971 Neil Ave Columbus OH 43210 USA;

Clemson Univ Dept Automot Engn Greenville SC 29607 USA;

Clemson Univ Dept Automot Engn Greenville SC 29607 USA;

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原文格式 PDF
正文语种 eng
中图分类机械、仪表工业;
关键词
Combined isotropic-kinematic hardening law; Chaboche; ISF process parameters; incremental sheet forming; SPIF; toolpath;

机译：同位素 - 运动硬化法;Chaboche;ISF工艺参数;增量板形成;SPIF;刀具路径;

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Effect of hardening law and process parameters on finite element simulation of single point incremental forming (SPIF) of 7075 aluminum alloy sheet

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