Mechanical alloying of the Ti-Al system in atmosphere of hydrogen and argon

Akito Takasaki , Yoshio Furuya
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引用次数: 20

Abstract

Three kinds of Ti-Al powders, Ti72Al28, Ti57Al43 and Ti48Al52, were mechanically alloyed by a planetary ball mill in atmosphere of argon or hydrogen gases (0.1 MPa) with alloying times up to 30 h. The mechanical alloying (MA) process as well as the phase variations of each powder after subsequent heating at 1173 K were investigated. About 5000 wppm hydrogen, which could be easily removed by a heat treatment at 800 K (heating rate was 20 K/min), was occluded in all powders during MA in the hydrogen atmosphere, whereas the mechanically alloyed powders in the argon atmosphere occluded about 1000 wppm hydrogen. In the hydrogen atmosphere, the titanium powder easily crumbled into finer particles, assisting the diffusion of aluminum into titanium (solid-solid reaction) at an early stage of the MA process and accelerating the formation of an amorphous-like phase at a longer MA process. The phase formation after heat treatment of MA powders at 1173 K could be estimated by the Ti-Al binary phase diagram without the effect of the gas atmosphere.

氢、氩气氛下Ti-Al体系的机械合金化
采用行星球磨机在0.1 MPa氩气或氢气气氛下机械合金化Ti72Al28、Ti57Al43和Ti48Al52三种Ti-Al粉末,合金化时间长达30 h,研究了机械合金化过程以及各粉末在1173 K加热后的相变化。在氢气气氛中,所有粉末中都含有约5000 wppm的氢,可以通过800 K(加热速率为20 K/min)的热处理轻松去除,而在氩气气氛中,机械合金粉末中含有约1000 wppm的氢。在氢气气氛中,钛粉容易破碎成更细的颗粒,在MA过程的早期阶段有助于铝向钛的扩散(固-固反应),在较长的MA过程中加速非晶相的形成。MA粉末在1173 K下热处理后的相形成可以用Ti-Al二元相图来估计,而不受气体气氛的影响。
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