TB8钛合金超塑性变形的组织演变

徐远刚; 董洪波; 袁大庆; 姜智勇; 周盛武

doi:10.15980/j.tzzz.2017.06.024

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TB8钛合金超塑性变形的组织演变
Microstructure Evolution of TB8 Alloy during Superplastic Deformation Process
2017年37卷第6期页码：668-671
纸质出版日期： 2017 ，
DOI： 10.15980/j.tzzz.2017.06.024

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[1]徐远刚,董洪波,袁大庆,姜智勇,周盛武.TB8钛合金超塑性变形的组织演变[J].特种铸造及有色合金,2017,37(06):668-671.

Xu Yuangang, Dong Hongbo, Yuan Daqing, et al. Microstructure Evolution of TB8 Alloy during Superplastic Deformation Process[J]. Special Casting & Nonferrous Alloys, 2017,37(6):668-671.
[1]徐远刚,董洪波,袁大庆,姜智勇,周盛武.TB8钛合金超塑性变形的组织演变[J].特种铸造及有色合金,2017,37(06):668-671. DOI： 10.15980/j.tzzz.2017.06.024.

Xu Yuangang, Dong Hongbo, Yuan Daqing, et al. Microstructure Evolution of TB8 Alloy during Superplastic Deformation Process[J]. Special Casting & Nonferrous Alloys, 2017,37(6):668-671. DOI： 10.15980/j.tzzz.2017.06.024.

摘要

研究了TB8合金在不同变形条件下的超塑性及其显微组织。结果表明

变形温度为690～840℃、应变速率为1.0×10

-4

～1.0×10

-3

-1

时

TB8钛合金均具有超塑性。750℃、1.0×10

-4

-1

拉伸时

合金塑性最佳

伸长率为524.9%。变形过程中

变形软化和加工硬化相互抵消

表现为传统的超塑性变形稳态流动特征。变形温度、应变速率和变形程度对合金的超塑性、显微组织均有明显影响。应变速率越低

等轴β相晶粒尺寸越大。拉伸温度升高

β相晶粒尺寸增大

α相颗粒逐渐被溶解

β相饱和化

但仍能保持一定的等轴度。随着变形程度增大

β相晶界和基体弥散析出的α相越多

细小、弥散分布的α相可以抑制晶粒的过分长大

使合金塑性得到改善。

Abstract

The effects of different deformation conditions on the superplasticity of TB8 alloy and the microstructure evolution during deformation process were investigated. The results reveal that at 720 ～ 840 ℃ and 1. 0 × 10

-4

～1. 0 × 10

-3

-1

TB8 alloy exhibits the superplastic behavior. At 750 ℃ and 1. 0 × 10

-4

-1

elongation of the TB8 alloy reaches 524. 9%. During deformation process

the working hardening and the softening exhibits balance

and the alloy is characterized by the traditional steady-state superplastic flow behavior. Meanwhile

the deformation temperature

strain-rate and deformation rate have the significant effects on the microstructure. With decreasing in strain rate or increasing in tensile temperature

the size of the equiaxed β phase is increased.While with increasing in deformation temperature

α phase is dissolved into the matrix gradually and β phase tends to be saturated

however

the grains still retain in equiaxed state to some extent. The α phase segregated dispersedly from the grain boundary and matrix of β phase is increased with the deformation rate increase

which can inhibit the growth of grain size and improve the plasticity.