摘要
采用拉伸和应力-应变循环实验研究了退火温度、时效温度、时效时间、形变温度和应力-应变循环对Ti-50.8Ni-0.5V(原子分数,%)形状记忆合金超弹性(SE)的影响。随退火温度的升高,合金的应力诱发马氏体临界应力(σM)先减小后增大,超弹性残留应变(εR)先增大后减小再增大,为了获得优异的室温SE,退火温度应取500~600℃。随时效温度的升高,合金的σM降低,εR增加,SE变差;随时效时间延长,300℃时效态合金的SE稳定,400和500℃时效态合金的SE变差。随形变温度的升高,σM增加,SE改善。随循环次数增加,400℃退火态合金的SE稳定;500℃退火态合金的σM降低;600℃退火态合金的SE由非线性向线性转变。
The effects of annealing temperature, annealing time, aging temperature, aging time, deformation temperature and stress-strain cycle on superelasticity(SE) of Ti-50.8Ni-0.5V(atomic fraction, %) shape memory alloys were investigated by tensile tests and stress-strain cycle tests.With increasing the annealing temperature, the critical stress for inducing martensitic transformation(σM) of the alloy decreases first and then increases; the residual strain(εR) first increases, then decreases, and finally increases.To get an excellent SE at room temperature for the alloy, the annealing temperature should be 500~600 ℃.With increasing aging temperature, the σM decreases, the εR increases, and the SE of the alloy becomes weak.With increasing aging time, the SE of 300 ℃ aged alloy are stable, while the SE of 400 and 500 ℃ aged alloys deteriorates.With increasing deformation temperature, the σM increases, while the SE improves.With increasing cyclic number, the SE of the 400 ℃ annealed alloy is stable, the σM of the 500 ℃ annealed alloys drops, and the SE of 600 ℃ changes from nonlinear type to linear type.
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2015年第7期1639-1642,共4页
Rare Metal Materials and Engineering
基金
陕西省科技统筹创新计划(2011KTDZ01-03-06)
陕西省教育厅科技计划(12JK0436)
