Sun Qianjiang1, Wang Gaochao2, Li Miaoquan1. Effect of Strain Rate on Superplasticity of TA15 Titanium Alloy[J]. Special Casting & Nonferrous Alloys, 2012,32(8):687-690.
Sun Qianjiang1, Wang Gaochao2, Li Miaoquan1. Effect of Strain Rate on Superplasticity of TA15 Titanium Alloy[J]. Special Casting & Nonferrous Alloys, 2012,32(8):687-690. DOI: 10.15980/j.tzzz.2012.08.012.
应变速率对TA15钛合金超塑性的影响
摘要
采用恒应变速率拉伸方法研究了应变速率对TA15合金超塑性的影响。结果表明
在变形温度为900℃
应变速率为3.3×10-4~1.1×10-2s-1时
随应变速率的降低
伸长率逐渐增大
最大伸长率为1074%。同时
在高应变速率条件下也获得了良好的超塑性能。此外
应力-应变曲线中出现了较长的应变硬化阶段
应变速率越低
应变硬化阶段越长
并且有利于超塑性变形。微观组织观察表明应变速率对TA15合金显微组织演变有着显著的影响
应变速率越低
显微组织粗化越严重。高应变速率条件下
由于动态再结晶的作用
试样变形区出现了很多新的细小等轴α相。
Abstract
Influences of strain rate on superplasticity of TA15 alloy were investigated by constant strain-rate tensile method.The results show that the elongation is increased gradually with decreasing in strain rate at 900 ℃ and strain rate in range of 3.3×10-4~1.1×10-2 s-1
and the maximum elongation of 1074% can be observed
and the better superplasticity can be also obtained at the high strain rate.Moreover
the extensive strain hardening stages appear in the curves of strain-stress.The lower the strain rate is
the longer the strain hardening stage is
and it is in favor of superplastic deformation.The microstructure observation shows that the strain rate is closely related with microstructure evolution.The lower the strain rate is
the more serious the microstructure coarsening is.Additionally
at the high stain rate
lots of new fine equaxied α phase appear in the deformed region of the specimen as a result of dynamic recrystallization.