A method for calculating damage evolution in adiabatic shear band of titanium alloy 被引量：3

A method for calculating damage evolution in adiabatic shear band of titanium alloy

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摘要 A method for calculating the evolution of the local damage variable at the adiabatic shear band(ASB)center was proposed.In the present method,the JOHNSON-COOK model and the nonlocal theory were adopted,and the damage variable formula applicable for the bilinear(linearly elastic and strain-softening)constitutive relation was further generalized to consider the plastic deformation occurring in the strain-hardening stage.Aiming at Ti-6Al-4V,the effect of strain rate on the evolution of the local damage variable at the ASB center was investigated.In addition,a parametric study was carried out,including the effects of strain-hardening exponent,strain rate sensitive coefficient,thermal-softening exponent,static shear strength,strain-hardening modulus,shear elastic modulus,work to heat conversion factor,melting temperature and initial temperature.The damage extent at the ASB center in the radial collapse experiment was assessed.It is found that at higher strain rates the damage in the ASB becomes more serious at the same average plastic shear strain of the ASB. A method for calculating the evolution of the local damage variable at the adiabatic shear band （ASB） center was proposed. In the present method, the JOHNSON-COOK model and the nonlocal theory were adopted, and the damage variable formula applicable for the bilinear （linearly elastic and strain-softening） constitutive relation was further generalized to consider the plastic deformation occurring in the strain-hardening stage. Aiming at Ti-6Al-4V, the effect of strain rate on the evolution of the local damage variable at the ASB center was investigated. In addition, a parametric study was carried out, including the effects of strain-hardening exponent, strain rate sensitive coefficient, thermal-softening exponent, static shear strength, strain-hardening modulus, shear elastic modulus, work to heat conversion factor, melting temperature and initial temperature. The damage extent at the ASB center in the radial collapse experiment was assessed. It is found that at higher strain rates the damage in the ASB becomes more serious at the same average plastic shear strain of the ASB.

作者王学滨

机构地区 College of Mechanics and Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2009年第5期1280-1285,共6页 Transactions of Nonferrous Metals Society of China

基金 Project(20081102)supported by the Doctor Startup Foundation of Liaoning Province,China

关键词绝热剪切带损伤变量钛铝合金演化方法计算应变速率敏感系数应变软化硬化指数 adiabatic shear band damage variable titanium alloy nonlocal theory JOHNSON-COOK model strain-hardening strain rate

分类号 TG146.23 [一般工业技术—材料科学与工程]

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参考文献6

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中国有色金属学会会刊：英文版

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