消散
材料科学
不稳定性
等温过程
拉伤
合金
变形(气象学)
钛
复合材料
应变率
压缩(物理)
钛合金
冶金
机械
热力学
物理
内科学
医学
作者
Yan Hui Liu,Ze Kun Yao,Yong Quan Ning,Hong Zhen Guo,Zhang Long Zhao
出处
期刊:Advanced Materials Research
日期:2014-04-01
卷期号:906: 254-258
标识
DOI:10.4028/www.scientific.net/amr.906.254
摘要
Isothermal compression tests were carried out on Ti-6.0Al-7.0Nb biomedical titanium alloy at the temperatures of 750900°C (all below β phase transition temperature about 1010°C) and strain rates of 0.0011.0s -1 . The processing maps were constructed to evaluate the efficiency of power dissipation ( η ) and recognize the flow instability regimes. True strain takes great effect on the efficiency of power dissipation η under the different temperatures and strain rates. The value of power dissipation η increases from 0.1 to 0.7 in most areas. When the strain is 0.9, the value of power dissipation η in most regimes is from 30% to 40%. There are two instability regimes respectively located around 780°C/1.0s -1 and 860-900°C/0.001-0.01s -1 when the strains are below 0.5. One of the instability regimes disappears when the strains are 0.5-0.7. When the strain is 0.9, there are still two instability regimes. The safe regime located around 780-840°C/0.1-0.01s -1 , and hot deformation can be carried out in this area.
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