Physics-Based Constitutive Model to Predict Dynamic Recovery Behavior of BFe10-1-2 Cupronickel Alloy during Hot Working

Jun Cai; Xiaolu Zhang; Kuaishe Wang; Chengpeng Miao

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Physics-Based Constitutive Model to Predict Dynamic Recovery Behavior of BFe10-1-2 Cupronickel Alloy during Hot Working

机译：基于物理的本构模型预测BFe10-1-2镍合金热加工过程中的动态恢复行为

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摘要

The hot deformation behavior of BFe10-1-2 cupronickel alloy was investigated over wide ranges of deformation temperature and strain rate. The physics-based constitutive model was developed to predict the dynamic recovery (DRV) behavior of BFe10-1-2 cupronickel alloy at elevated temperatures. In order to verify the validity of the developed constitutive equation, the correlation coefficient (R) and average absolute relative error (AARE) were introduced to make statistics. The results indicated that the developed constitutive equation lead a good agreement between the calculated and experimental data and can accurately characterize the hot DRV behaviors for the BFe10-1-2 cupronickel alloy.

机译：研究了BFe10-1-2镍铜合金在较大的变形温度和应变速率范围内的热变形行为。建立了基于物理的本构模型以预测BFe10-1-2镍铜合金在高温下的动态恢复（DRV）行为。为了验证所建立的本构方程的有效性，引入了相关系数（R）和平均绝对相对误差（AARE）进行统计。结果表明，所建立的本构方程在计算数据与实验数据之间具有良好的一致性，可以准确地表征BFe10-1-2镍铜合金的热DRV行为。

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来源
《High temperature materials and processes》 |2016年第10期|1037-1045|共9页
作者
Jun Cai; Xiaolu Zhang; Kuaishe Wang; Chengpeng Miao;
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作者单位

School of Metallurgical Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, China;

Petrochina Company Limited Shaanxi Marketing Company, Xi'an 710004, China;

School of Metallurgical Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, China;

Jinchuan Group Co., Ltd, Jinchang 737104, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
BFe10-1-2 cupronickel alloy; physics-based constitutive model; dynamic recovery; flow stress;

机译：BFe10-1-2白铜合金;基于物理的本构模型;动态恢复;流应力;

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专利

1. Physics-Based Constitutive Model to Predict Dynamic Recovery Behavior of BFe10-1-2 Cupronickel Alloy during Hot Working [J] . Jun Cai, Xiaolu Zhang, Kuaishe Wang, High temperature materials and processes . 2016,第10期

机译：基于物理的本构模型预测BFe10-1-2白铜合金热加工过程中的动态恢复行为
2. A Constitutive Equation for Predicting Elevated Temperature Flow Behavior of BFe10-1-2 Cupronickel Alloy through Double Multiple Nonlinear Regression [J] . Jun Cai, Meng Wang, Jiamin Shi, High temperature materials and processes . 2019,第1期

机译：通过双倍非线性回归预测BFE10-1-2 Cupronickel合金升高温度流动性的组成方程
3. A Comparative Investigation on the Capability of Modified Zerilli-Armstrong and Arrhenius-Type Constitutive Models to Describe Flow Behavior of BFe10-1-2 Cupronickel Alloy at Elevated Temperature [J] . Cai Jun, Lei Ying, Wang Kuaishe, Journal of Materials Engineering and Performance . 2016,第5期

机译：改进的Zerilli-Armstrong和Arrhenius型本构模型描述BFe10-1-2镍合金在高温下流动行为的能力的比较研究
4. ANALYSIS OF A HOT ROLLING SCHEDULE FOR COMMERCIAL ALUMINIUM-1 MAGNESIUM ALLOY IN TERMS OF DYNAMIC MATERIAL MODELING CONCEPTS. PART I: DESCRIPTION OF THE CONSTITUTIVE BEHAVIOR [C] . Eli S. PUCHI, Crlsanto VILLALOBOS, Mariana H. STAIA IAPR Workshop on Machine Vision Applications, Nov 28-30, 2000, The University of Tokyo, Japan . 2000

机译：在动态材料建模概念中分析1％铝镁合金的热轧时间表。第一部分：本性行为的描述
5. Effect of microalloying on microstructure and hot working behavior for AZ31 based magnesium alloy. [D] . Shang, Lihong. 2008

机译：微合金化对AZ31基镁合金组织和热加工行为的影响。
6. A Physically Based Constitutive Model and Continuous Dynamic Recrystallization Behavior Analysis of 2219 Aluminum Alloy during Hot Deformation Process [O] . Lei Liu, Yunxin Wu, Hai Gong, 2018

机译：2219铝合金热变形过程的本构模型及连续动态再结晶行为分析
7. A Constitutive Equation for Predicting Elevated Temperature Flow Behavior of BFe10-1-2 Cupronickel Alloy through Double Multiple Nonlinear Regression [O] . Jun Cai, Meng Wang, Jiamin Shi, 2018

机译：通过双倍非线性回归预测BFE10-1-2 Cupronickel合金升高温度流动性的组成方程

Physics-Based Constitutive Model to Predict Dynamic Recovery Behavior of BFe10-1-2 Cupronickel Alloy during Hot Working

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