超(超)临界火电用新型奥氏体不锈钢的高温塑性变形行为及本构模型  被引量:5

Plastic deformation behavior and constitutive model of new austenitic stainless steel at high temperature used for ultra super critical power plant

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作  者:程晓农[1] 王皎 罗锐[1] 朱晶晶[1] 杨雨童 郑琦[1] CHENG Xiao-nong;WANG Jiao;LUO Rui;ZHU Jing-jing;YANG Yu-tong;ZHENG Qi(School of Materials Science and Engineering,Jiangsu University,Zhenjiang 212013,China)

机构地区:[1]江苏大学材料科学与工程学院

出  处:《塑性工程学报》2018年第4期122-128,共7页Journal of Plasticity Engineering

基  金:国家高技术研究发展计划(863计划)(2012AA03A501);江苏省重点实验室开放课题(hsm1304)

摘  要:利用Gleeble-3500热模拟试验机对新型奥氏体不锈钢CHDG-A进行单道次压缩试验,研究了该合金在950-1100℃和0.01-1 s^(-1)条件下的流变应力变化规律及变形组织演变规律。建立了新型奥氏体不锈钢CHDG-A的传统Arrhenius本构模型,耦合应变量后建立改进型本构模型,并引进相关系数R、平均相对误差δ评估改进型本构模型的预测精度。结果表明:在高温热变形过程中,新型奥氏体不锈钢CHDG-A的流变应力值受应变速率以及变形温度的影响显著,且动态再结晶更易在较低应变速率、较高变形温度条件下发生;应用改进型本构模型得到的流变应力预测值与试验值间的相关系数R为0.9944,而平均相对误差值δ仅为1.9952%,说明该本构模型能较好的预测新型奥氏体不锈钢CHDG-A的流变应力。The change law of flow stress and evolution law of deformed microstructure at 950^(-1)100 ℃ and 0. 01-1 s^(-1) of new austenitic stainless steel CHDG-A were studied by Gleeble-3500 thermol-simulation machine. Traditional Arrhenius constitutive model of new austenitic stainless steel CHDG-A was established. And the modified constitutive model was built coupling with strain. The correlation coefficient R and average relative error δ were introdued to evaluate the accuracy of the modified constitutive model. Results show that the stress of new austenitic stainless steel CHDG-A is influenced by strain rate and deformation temperature significantly,and the dynamic recrystallization is more likely to occur at lower strain rate and higher temperature. The correlation coefficient R and average relative error δ between the predicted value of flow stress and the test value obtained by applying the modified constitutive model are 0. 9944 and 1. 9952%,respectively,which indicates that the constitutive model can accurately predict the flow stress of new austenitic stainless steel CHDG-A.

关 键 词:奥氏体不锈钢 高温塑性变形行为 流变应力 本构模型 应变量耦合 

分 类 号:TG142.73[一般工业技术—材料科学与工程]

 

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