基于修正剪切破坏准则的成形极限图预测与验证

IF 4.2 2区 工程技术 Q1 Engineering
Haibo Wang, Zipeng Wang, Yu Yan, Yuanhui Xu
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引用次数: 0

摘要

摘要成形极限图在预测板料成形极限方面起着重要作用。前人的研究表明,基于原剪切破坏准则的失稳理论构建成形极限图的方法是有效且简单的。原剪切失稳判据能准确预测成形极限图的左侧区域,但不能准确预测右侧区域。为了提高原剪切破坏准则的准确性,本研究在对原剪切破坏准则进行深入分析的基础上,提出了一种修正的剪切破坏准则。给出了剪切破坏准则的详细改进策略和完整的计算过程。基于修正的剪切破坏准则和不同的本构方程,计算了TRIP780钢和5754O铝合金板材的理论成形极限。理论与实验结果对比表明,所提出的修正剪切破坏准则比原剪切破坏准则能更合理地预测成形极限的正确区域。并对预应变和本构方程对成形极限的影响进行了深入分析。本文提出的修正剪切破坏准则为预测板料成形极限提供了一种可靠的替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prediction and Verification of Forming Limit Diagrams Based on a Modified Shear Failure Criterion
Abstract The forming limit diagram plays an important role in predicting the forming limit of sheet metals. Previous studies have shown that, the method to construct the forming limit diagram based on instability theory of the original shear failure criterion is effective and simple. The original shear instability criterion can accurately predict the left area of the forming limit diagram but not the right area. In this study, in order to improve the accuracy of the original shear failure criterion, a modified shear failure criterion was proposed based on in-depth analysis of the original shear failure criterion. The detailed improvement strategies of the shear failure criterion and the complete calculation process are given. Based on the modified shear failure criterion and different constitutive equations, the theoretical forming limit of TRIP780 steel and 5754O aluminum alloy sheet metals are calculated. By comparing the theoretical and experimental results, it is shown that proposed modified shear failure criterion can predict the right area of forming limit more reasonably than the original shear failure criterion. The effect of the pre-strain and constitutive equation on the forming limits are also analyzed in depth. The modified shear failure criterion proposed in this study provides an alternative and reliable method to predict forming limit of sheet metals.
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来源期刊
CiteScore
5.60
自引率
4.80%
发文量
3097
审稿时长
8 months
期刊介绍: Chinese Journal of Mechanical Engineering (CJME) was launched in 1988. It is a peer-reviewed journal under the govern of China Association for Science and Technology (CAST) and sponsored by Chinese Mechanical Engineering Society (CMES). The publishing scopes of CJME follow with: Mechanism and Robotics, including but not limited to -- Innovative Mechanism Design -- Mechanical Transmission -- Robot Structure Design and Control -- Applications for Robotics (e.g., Industrial Robot, Medical Robot, Service Robot…) -- Tri-Co Robotics Intelligent Manufacturing Technology, including but not limited to -- Innovative Industrial Design -- Intelligent Machining Process -- Artificial Intelligence -- Micro- and Nano-manufacturing -- Material Increasing Manufacturing -- Intelligent Monitoring Technology -- Machine Fault Diagnostics and Prognostics Advanced Transportation Equipment, including but not limited to -- New Energy Vehicle Technology -- Unmanned Vehicle -- Advanced Rail Transportation -- Intelligent Transport System Ocean Engineering Equipment, including but not limited to --Equipment for Deep-sea Exploration -- Autonomous Underwater Vehicle Smart Material, including but not limited to --Special Metal Functional Materials --Advanced Composite Materials --Material Forming Technology.
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