Ti-5Al-5Mo-5V-3Cr-1Zr合金β相区热变形行为及位错密度内变量本构模型

陈刚; 王静; 陈英杰; 陈伟; 陈铁柱; 丁杰; 张鸿名

doi:10.15980/j.tzzz.2021.05.001

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Ti-5Al-5Mo-5V-3Cr-1Zr合金β相区热变形行为及位错密度内变量本构模型
Hot Deformation Behavior and Dislocation Density Based on Constitutive Model of Ti-5Al-5Mo-5V-3Cr-1Zr Alloy in the β Phase Region
- 角色： First author 第一作者
- 机构：
  哈尔滨工业大学(威海)材料科学与工程学院
陈刚
1 ，
- 机构：
  哈尔滨工业大学(威海)材料科学与工程学院
王静
1 ，
- 机构：
  哈尔滨工业大学(威海)材料科学与工程学院
陈英杰
1 ，
- 机构：
  山东南山铝业股份有限公司
陈伟
2 ，
- 机构：
  山东南山铝业股份有限公司
陈铁柱
2 ，
- 机构：
  山东南山铝业股份有限公司
丁杰
2 ，
- 角色： Corresponding author 通讯作者
- 机构：
  哈尔滨工业大学(威海)海洋工程学院
- 邮箱： zhanghongming@hit.edu.cn
张鸿名
3
2021年41卷第5期页码：529-533
纸质出版日期： 2021 ，
DOI： 10.15980/j.tzzz.2021.05.001

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[1]陈刚,王静,陈英杰,陈伟,陈铁柱,丁杰,张鸿名.Ti-5Al-5Mo-5V-3Cr-1Zr合金β相区热变形行为及位错密度内变量本构模型[J].特种铸造及有色合金,2021,41(05):529-533.

Hot Deformation Behavior and Dislocation Density Based on Constitutive Model of Ti-5Al-5Mo-5V-3Cr-1Zr Alloy in the β Phase Region[J]. Special Casting & Nonferrous Alloys, 2021,41(5):529-533.
[1]陈刚,王静,陈英杰,陈伟,陈铁柱,丁杰,张鸿名.Ti-5Al-5Mo-5V-3Cr-1Zr合金β相区热变形行为及位错密度内变量本构模型[J].特种铸造及有色合金,2021,41(05):529-533. DOI： 10.15980/j.tzzz.2021.05.001.

Hot Deformation Behavior and Dislocation Density Based on Constitutive Model of Ti-5Al-5Mo-5V-3Cr-1Zr Alloy in the β Phase Region[J]. Special Casting & Nonferrous Alloys, 2021,41(5):529-533. DOI： 10.15980/j.tzzz.2021.05.001.

Ti-5Al-5Mo-5V-3Cr-1Zr合金β相区热变形行为及位错密度内变量本构模型

陈刚 ; 王静 ; 陈英杰 ; 陈伟 ; 陈铁柱 ; 丁杰 ; 张鸿名 ;

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摘要

通过热压缩模拟试验机Gleeble3500进行了Ti-5Al-5Mo-5V-3Cr-1Zr（Ti-55531）合金在β相区的热模拟压缩试验(变形温度为860、885、910、935℃,应变速率为0.001、0.01、0.1、1 s^-1),采用光学显微镜分析了材料的组织演化行为。结果发现,Ti-55531合金变形过程中的动态软化效应以动态回复为主,在低应变速率下,组织呈现再结晶特征。为了通过材料变形机制去描述流动应力行为,考虑加工硬化和动态软化机制对位错密度的影响,建立了Ti-55531合金在β相区的位错密度内变量本构模型。结果表明,该模型能够准确预测Ti-55531合金在β相区的热变形行为。

译

Abstract

The hot compression simulation experiment of Ti-5 Al-5 Mo-5 V-3 Cr-1 Zr（Ti-55531） alloy in β phase region with deformation temperature at 860, 885, 910, 935 ℃ and strain rate at 0.001, 0.01, 0.1, 1 s^-1 was carried out by the Gleeble3500 thermal compression simulation machine.The microstructure evolution of the Ti-55531 was analyzed by OM.The results reveal that the dynamic softening effect of Ti-55531 alloy during the hot deformation is dominated by the dynamic recovery, and the microstructure is characterized by dynamic recrystallization at low strain rate.In order to describe the flow stress behavior by the material deformation mechanism, a unified constitutive model of Ti-55531 alloy based on dislocation density in β phase region was established considering the influence of hardening and dynamic softening mechanism on the dislocation density.The results indicate that the prediction model can accurately predict the hot deformation behavior of Ti-55531 alloy in β phase region.

译

关键词

Ti-55531合金; 热变形; β相区; 组织演化; 本构模型

译

Keywords

Ti-55531 Alloy; Hot Deformation; β Phase Region; Microstructure Evolution; Constitutive Model

译

摘要

通过热压缩模拟试验机Gleeble3500进行了Ti-5Al-5Mo-5V-3Cr-1Zr（Ti-55531）合金在β相区的热模拟压缩试验(变形温度为860、885、910、935℃

应变速率为0.001、0.01、0.1、1 s

-1

)

采用光学显微镜分析了材料的组织演化行为。结果发现

Ti-55531合金变形过程中的动态软化效应以动态回复为主

在低应变速率下

组织呈现再结晶特征。为了通过材料变形机制去描述流动应力行为

考虑加工硬化和动态软化机制对位错密度的影响

建立了Ti-55531合金在β相区的位错密度内变量本构模型。结果表明

该模型能够准确预测Ti-55531合金在β相区的热变形行为。

Abstract

The hot compression simulation experiment of Ti-5 Al-5 Mo-5 V-3 Cr-1 Zr（Ti-55531） alloy in β phase region with deformation temperature at 860

885

910

935 ℃ and strain rate at 0.001

0.01

0.1

1 s

-1

was carried out by the Gleeble3500 thermal compression simulation machine.The microstructure evolution of the Ti-55531 was analyzed by OM.The results reveal that the dynamic softening effect of Ti-55531 alloy during the hot deformation is dominated by the dynamic recovery

and the microstructure is characterized by dynamic recrystallization at low strain rate.In order to describe the flow stress behavior by the material deformation mechanism

a unified constitutive model of Ti-55531 alloy based on dislocation density in β phase region was established considering the influence of hardening and dynamic softening mechanism on the dislocation density.The results indicate that the prediction model can accurately predict the hot deformation behavior of Ti-55531 alloy in β phase region.