α Phase Forming on Surface Layer and Precipitating inside of a Ti-Mo Based Alloy Annealed in Air

摘要:

文章预览

α-phase forming on the surface layer and precipitation of α-phase inside a Ti-Mo alloy during annealing in air has been investigated thermodynamically. α-phase layer is increased rapidly when annealing temperature exceeds 700°C. When the 850°C solution-treated specimen annealed at 400°C for 1 hour, there is no α-phase precipitates. As annealing temperature increased to 800°C, the amount of α-phase precipitates first increased to a maximum at 600°C, then decreased.

信息:

期刊:

编辑:

Young Won Chang, Nack J. Kim and Chong Soo Lee

页数:

1295-1298

引用:

J. Song and C. Y. Xie, "α Phase Forming on Surface Layer and Precipitating inside of a Ti-Mo Based Alloy Annealed in Air", Advanced Materials Research, Vols. 26-28, pp. 1295-1298, 2007

上线时间:

October 2007

输出:

价格:

$38.00

[1] L. C. Zhang, T. Zhou, S. P. Alpay, M. H. Wu, Apply Physics Letters 87, 241909 , (2005).

[2] T. Zhou, M. Aindow, M. H. Wu, Scripta Materialia, Volume 50, Issue 3, February 2004, Pages 343-348.

[3] T. Zhou, M. Aindow, S. P. Alpay, M. J. Blackburn Proc of 10th world conference on Titanium, (Ti-2003), Hamburg, Germany(2003).

[4] M.H. Wu, P.A. RUSSO, J.G. FERREROProcessdings, 10th world conference on Titanium, (Ti-2003), Hamburg, Germany(2003).

[5] C. H. Xu, X. Q. Ma, S. Q. Shi and C. H. Woo, Materials Science and Engineering A, Volume 371, Issues 1-2, 25 April 2004, Pages 45-50.

[6] E. Sukedai, H. Yagi, D. Yoshimitsu, H. Matsumoto, Ultramicroscopy, Volume 98, Issues 2-4, January 2004, Pages 209-218.

[7] S. Nag, R. Banerjee and H.L. Fraser, Materials Science and Engineering: , Volume 25, Issue 3, May 2005, Pages 357-362. Fig. 5. micrographs of solution treatment: (a)850 °C and precipitation of substrate (b)400 °C (c) 600 °C (d)700 °C (f)800 °C.