文章摘要
李奇涵,王宝中,高嵩,等.高强钢-铝合金材料的流动应力模型研究及应用[J].精密成形工程,2021,13(4):121-126.
LI Qi-han,WANG Bao-zhong,GAO Song,et al.Study on Flow Stress Model of High-Strength Steel and Aluminum Alloy in Clinching[J].Journal of Netshape Forming Engineering,2021,13(4):121-126.
高强钢-铝合金材料的流动应力模型研究及应用
Study on Flow Stress Model of High-Strength Steel and Aluminum Alloy in Clinching
投稿时间:2021-04-26  
DOI:10.3969/j.issn.1674-6457.2021.04.017
中文关键词: 高强钢  铝合金  拉伸试验  本构模型  无铆连接
英文关键词: high strength steel  aluminium alloy  tensile test  constitutive model  clinching
基金项目:吉林省科技发展计划(20190302100GX);国家自然科学基金(51805045)
作者单位
李奇涵 长春工业大学 机电工程学院长春 130012 
王宝中 长春工业大学 机电工程学院长春 130012 
高嵩 长春工业大学 机电工程学院长春 130012 
徐传伟 长春工业大学 机电工程学院长春 130012 
马风雷 长春工业大学 机电工程学院长春 130012 
韩小亨 长春工业大学 机电工程学院长春 130012 
袁博 长春工业大学 机电工程学院长春 130012 
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中文摘要:
      目的 研究常温下无铆连接中高强钢与铝合金材料的应力-应变关系以及本构模型的预测效果。方法 通过拉伸试验初步研究材料性能,主要包括屈服强度、拉伸强度和伸长率等;然后采用4种流动应力模型描述塑性段,即本构模型,分别对两种材料的应力-应变关系进行表述。随后采用相关系数R值和平均绝对相对误差EAARE值评价4种模型预测应力的效果。结果 4种本构模型均能够较好地描述两种材料的应力-应变关系,高强钢与铝合金材料拟合后的R值高于0.99,EAARE值低于2%。结论 通过对比分析,Voce模型表述高强钢材料应力-应变关系的效果更好,Swift模型表述铝合金材料应力-应变关系的效果更好,并成功应用于无铆连接工艺中,且误差均低于5%。
英文摘要:
      This paper aims to study the stress-strain relationship between high-strength steel and aluminum alloy in clinching at room temperature. The materialʹs properties were studied through the tensile test, including yield strength, tensile strength, and elongation. Then, four flow stress models, namely the constitutive model, were used to describe the stress-strain relationship of the two materials. Then the correlation coefficient R and average absolute relative error EAARE were used to evaluate the effect of the four models. The results show that the four constitutive models can well describe the stress-strain relationship of the two materials. The R-value of high-strength steel and aluminum alloy is higher than 0.99, and the EAARE value is lower than 2%. Through comparative analysis, Voce model is more effective to describe the stress-strain relationship of high-strength steel, and the Swift model is more effective to describe the stress-strain relationship of aluminum alloy. It is successfully applied to the clinched process, and the error is less than 5%.
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