工业纯钛ECAP温变形的力学性能及热稳定性
Mechanical Properties and Thermal Stability of CP-Ti Processed by ECAP at Intermediate Temperature
王克平1, 赵西城2, 杨西荣2
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作者单位:1. 西安航空技术高等专科学校, 陕西 西安 710075; 2. 西安建筑科技大学, 陕西 西安 710055
中文关键字:工业纯钛; 等径弯曲通道变形; 温加工; 退火
英文关键字:commercial pure titanium(CP-Ti); ECAP; intermediate-temperature; annealing
中文摘要:采用两通道夹角Φ=90°,外圆角Ψ=20° 的模具,成功实现了工业纯钛BC方式6道次ECAP温变形,累积等效真应变达到约6.3,制得ECAP温变形试样后,对各道次ECAP温变形后的工业纯钛进行压下量为55%的冷轧变形。同时,观察分析了变形试样的显微组织及性能,并对各道次ECAP温变形试样的热稳定性进行研究。结果表明,经过6道次ECAP变形后,工业纯钛的抗拉强度达到760 MPa,伸长率为40%。当退火温度低于400 ℃时,ECAP变形试样的组织变化不大,显微硬度下降缓慢;当退火温度高于400 ℃时,由于发生了再结晶,显微硬度显著下降。
英文摘要: ECAP at intermediate temperature with rout BC was successfully processed to six passes in commercial pure titanium (CP-Ti) using a die with the internal angle Φ of 90° and outer curvature angle Ψ of 20°. The equivalent strain is about 6.3. At the end of the trial after intermediate temperature ECAP, the cold-rolling deformation of the samples was carried out at the reduction of 55%. Meanwhile, the deformation specimens' microstructure performance and the effect of passes and annealing temperature on the microstructure and mechanical properties were investigated. Moreover, the ultimate tensile strength (UTS) of CP-Ti is over 760.5 MPa and its elongation is up to 40%. When the annealing temperature is below 400 ℃, the microhardness slightly decreases, but its microstructure changes little. When the annealing temperature is over 400 ℃, because the dislocation density decreases through recovery and causes re-crystallization, and the microhardness decreases markedly.