oC, 930oC and 960oC. The thickness of surface oxide layer increases during 0.5-24h and the closer to the surface, the more porous of the oxide. There is a sharp decrease of O level at the boundary of oxide layer and a-case. The O level decreases gradually inside the a-case to a stable level in the Ti-6Al-4V base material. The oxide layer is maily composed of TiO2, and there is also small amount of Al2O3. The volume fraction of a in much higher in the a-case and the grain size is also larger. The relationship between a-case depth and thermal exposure time can be fitted using log-log function. Linear regression analysis shows that the activation energy of O diffision in a case is 206 kJ/mol."/>

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High-temperature oxidation behavior and microstructure evolution of Ti-6Al-4V
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Beijing Aeronautical Manufacturing Technology Research Institute,Beijing Aeronautical Manufacturing Technology Research Institute,Beijing Aeronautical Manufacturing Technology Research Institute,Beijing Aeronautical Manufacturing Technology Research Institute,Beijing Aeronautical Manufacturing Technology Research Institute,Beijing Aeronautical Manufacturing Technology Research Institute

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    Abstract:

    This paper investigates the oxidation behavior and microstructure evolution of Ti-6Al-4V alloy at 900oC, 930oC and 960oC. The thickness of surface oxide layer increases during 0.5-24h and the closer to the surface, the more porous of the oxide. There is a sharp decrease of O level at the boundary of oxide layer and a-case. The O level decreases gradually inside the a-case to a stable level in the Ti-6Al-4V base material. The oxide layer is maily composed of TiO2, and there is also small amount of Al2O3. The volume fraction of a in much higher in the a-case and the grain size is also larger. The relationship between a-case depth and thermal exposure time can be fitted using log-log function. Linear regression analysis shows that the activation energy of O diffision in a case is 206 kJ/mol.

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[Liu Yunxi, Chen Wei, Li Zhiqiang, You Yang, Yao Gang, Han Xiuquan. High-temperature oxidation behavior and microstructure evolution of Ti-6Al-4V[J]. Rare Metal Materials and Engineering,2017,46(S1):230~234.]
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History
  • Received:May 13,2016
  • Revised:May 13,2016
  • Adopted:August 08,2017
  • Online: December 13,2017
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