Hot Deformation Behavior of High Strength Low Alloy Steel by Thermo Mechanical Simulator and Finite Element Method

机译：高强度低合金钢的热变形性能通过热机械模拟器和有限元法

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The hot deformation behavior of HSLA steel was investigated by using a MMS-200 thermal mechanical machine at different conditions and with deformation temperature of 800-1100 °C and strain rate of 0.1-10 S~(-1). FEM was analyzed the deformation characteristics of hot compression through Deform-3D software. It was discovered that the flow stress increases with increasing strain rate and decreasing temperature. The activation energy and stress exponent during hot deformation were calculated using hyperbolic sine constitutive equations. The result from the experiment represents the activation energy and stress exponent during hot compression of 222.256 kJ/mol. and 10.84. The prediction of distribution stress values from the constitutive equation in Deform-3D can be matched with the experimental results.

机译：通过在不同条件下使用MMS-200热机械机和800-1100℃的变形温度和0.1-10s〜（-1）的菌株来研究HSLA钢的热变形行为。分析了FEAR-3D软件热压缩的变形特性。发现流量应力随着应变率的增加和温度降低而增加。使用双曲线正弦本质方程计算热变形期间的激活能量和应力指数。实验结果代表了222.256 kJ / mol的热压缩期间的活化能和应力指数。和10.84。可以与实验结果相匹配来自Deform-3D中的组成方程的分布应力值的预测。

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《International Conference on Materials Engineering and Nanotechnology》|2017年|175p.|共8页
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Kingkam W; Li N; Zhang H X;
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4. Hot Deformation Behavior of High Strength Low Alloy Steel by Thermo Mechanical Simulator and Finite Element Method [C] . Kingkam W, Li N, Zhang H X International Conference on Materials Engineering and Nanotechnology . 2017

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Hot Deformation Behavior of High Strength Low Alloy Steel by Thermo Mechanical Simulator and Finite Element Method

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