Dynamics of Phase Transformation in Cu-Cr-Zr Alloy

Lijun Peng; Hao Feng Xie; Guo Jie Huang; Zhen Yang; Xu Jun Mi; Bai Qing Xiong

doi:10.4028/www.scientific.net/AMR.887-888.333

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 887-888Dynamics of Phase Transformation in Cu-Cr-Zr Alloy

Dynamics of Phase Transformation in Cu-Cr-Zr Alloy

Abstract:

Dynamic of phase transformation has been investigated through the measurement and analysis of relationship between electronic conductivity and the volume fraction of precipitates in the aging process of Cu-Cr-Zr alloy. According to above experiment, the Avrami empirical equation and electronic conductivity equation can be respectively confirmed at different aging temperature. S-curve of the dynamic for phase transformation at different temperature and C-curve of isothermal transformation for the Cu-Cr-Zr alloy are obtained.

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Advanced Materials Research (Volumes 887-888)

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333-337

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.887-888.333

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Online since:

February 2014

Authors:

Lijun Peng*, Hao Feng Xie, Guo Jie Huang, Zhen Yang, Xu Jun Mi, Bai Qing Xiong

Keywords:

Aging Process, Cu-Cr-Zr Alloy, Dynamic Kinetic, Electronic Conductivity, Phase Transformation

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References

[1] Q Liu, X Zhang, Y Ge, J Wang, J.H. Cui. Metall Mater Trans, 37A (2006), pp.3233-3238.

Google Scholar

[2] I.S. Batra, G.K. Dey, U.D. Kulkarni, S Banerjee. J Nucl Mater, 299 (2001), pp.91-100.

Google Scholar

[3] U Holzwarth, H Stamn. J Nucl Matter, 279 (2000), pp.31-45.

Google Scholar

[4] D.J. Edwards, B.N. Singh, S Tahtinen. J Nucl Matter, 367-370 (2007), pp.904-909.

Google Scholar

[5] P Liu, B.X. Kang, X.G. Gao. Mater Sci Eng , A 265 (1999), pp.262-267.

Google Scholar

[6] F.X. Huang, J.S. Ma, H.L. Ning, Z.T. Geng, C Lu, S.M. Guo, X.T. Yu, T Wang, H Li, H. F. Luo. Scr Mater, 48 (2003), pp.97-102.

Google Scholar

[7] A Chbihi, X Sauvage, D Blavette. Acta Mater, 60 (2012), pp.4575-4585.

Google Scholar

[8] J.H. Su, P Liu, H.J. Li, F.Z. Ren, Q.M. Dong. Mater lett, 61 (2007), pp.4963-4966.

Google Scholar

[9] N.Y. Tang, D.N.R. Taplin, G.L. Dunlop. Mater Sci technol, 1 (1985), pp.270-275.

Google Scholar

[10] K.J. Zeng, H Hamalainen, K Lilius. Scr Metall Mater, 32 (1995), p.2009-(2014).

Google Scholar

[11] I.S. Batra, G.K. Dey, U.D. Kulkarni, S Banerjee. Mater Sci Eng A, 356 (2002), pp.32-36.

Google Scholar

[12] F.X. Huang, J.S. Ma, H.L. Ning, Y.W. Cao, Z.T. Geng. Mater let, 57 (2003), pp.2135-2139.

Google Scholar

[13] M.T. Dumanska, P. Zieba, A. Pawloski, J. Wojewada, W. Gust. Mater Chem Phys. 80 (2003), pp.476-481.

Google Scholar