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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 750-752Research of Resistance to High Temperature and...

Research of Resistance to High Temperature and Creep Resistant Magnesium Alloy

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Abstract:

The strengthening mechanism, properties and applications of magnesium alloy with resistance to high temperature and creep resistant were introduced. The effects of some kinds of elements in magnesium alloy and the preparation methods were also elaborated. At last, the development trend of magnesium alloy was overviewed.

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Advanced Engineering Materials III

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Periodical:

Advanced Materials Research (Volumes 750-752)

Pages:

715-720

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.750-752.715

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Cite this paper

Online since:

August 2013

Authors:

Xu Jin Zhang, Gui Hong Geng

Keywords:

Creep Resistant, Magnesium Alloy, Preparation Method, Resistance to High Temperature, Strengthening Mechanism

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] Yunqi Yan, Tingjie Zhang, Ju Deng, etc. The research and development direction of the heat-resistant magnesium alloy. Materials Science and Engineering, Vol. 6(2004), pp.561-565. (In Chinese).

[2] Yang Liu, Jun Xie, Xuefeng Guo. The latest research progress of the Mg-Zn based heat resistant cast magnesium alloys. The processing of aluminum, Vol. 3 (2010), pp.20-26. (In Chinese).

[3] Wenliang Ren, Quanan Li, Yajing Shi, etc. The development status of the creep resistant magnesium alloy. Shanghai Nonferrous Metals, Vol. 1(2009), pp.37-43. (In Chinese).

[4] Kejie Zhao, Quan Xie, Qingquan Xiao, etc. The research of the film of Mg2Si with environmentally friendly[J]. Chinese Optics and Applied Optics, Vol. 5 (2010), pp.446-451. (In Chinese).

[5] KarlHeinzMatucha. The structure and properties of non-ferrous alloys. Beijing: The press of science, (1990). (In Chinese).

[6] Jiehua Li, Guangyu Yang. The research status and development trend of the heat resistant cast magnesium alloy. Chinese mold Equipment and Technology, Vol. 2 (2007), pp.2-6. (In Chinese).

[7] Xuegang Min, Wenwen Du, Yangshan Sun. The phenomenon of improving melting point of Mg17Al12 by Ca and the analysis for EET theoretical. Science Bulletin, Vol. 2 (2002), pp.109-112. (In Chinese).

DOI: 10.1360/02tb9243

[8] Lihua Wen. The organization and performance of the ZM6 heat resistant magnesium Alloys by solid phase regeneration. Harbin: The doctoral dissertation of Harbin University of Science and Technology, (2009). (In Chinese).

[9] PARK W W, JARDIM P M, YOU B S, etal. Characterization of Mg-Zn-Ca alloys for high temperature application. Proceedings of the Second Israeli International Conference on Magnesium Science & Technology Magnesium 2000,. Dead Sea, Israel: MRILTD. (2000).

[10] Yesheng Li, Dingqian Dong, Ziping Wu. Research and application prospects of rare earth magnesium alloy. The Fabrication Technology of Light Alloy, Vol. 4 (2006), pp.1-6. (In Chinese).

[11] Qudong Wang, Xiaoqin Zeng, Yizhen Lv, etc. The research and application of high-temperature casting magnesium alloy. Material review, Vol. 3 (2000), pp.21-23. (In Chinese).

[12] Chengjian Wu, Guoliang Chen, Wenjiang Qiang, etc. Metal Materials Science (Edition 2). Beijing: Metallurgical Industry Press, (2009). (In Chinese).

[13] Mordilke B L. Creep-resistant magnesium alloy. Mater SciEng A, (2002), pp.103-112.

[14] Zheng Liu, Jing Zhang, Xiaoqin Zeng. The theoretical foundation and application of light magnesium based alloy. Beijing: China Machine Press, (2002). (In Chinese).

[15] Qudong Wang, Yizhen Lv, Xiaoqin Zeng, etc. The application of rare earth in cast magnesium alloys. Special casting and nonferrous alloys, Vol. 1 (1999), pp.40-43. (In Chinese).

[16] Baozhong Liu, Yanping Fan, Jiaojiao Liu, etc. Research and development of heat-resistant magnesium alloys with the heavy rare earth. Material review, Vol. 2, (2012), pp.110-118. (In Chinese).

[17] Yoshihito Kawamura, Akihisa Inoune. Development of high strength magnesium alloys by rapid solidification. Materials Science Forum, (2003), pp.709-714.

DOI: 10.4028/www.scientific.net/msf.419-422.709

[18] WANG J Y, LIN Y N, CHANG T C, etal. Recycling the Magnesium Alloy AZ91D in Solid State. Materials Transactions, Vol. 4 (2006), pp.1047-1051.

DOI: 10.2320/matertrans.47.1047

[19] CHION Y, HOSHIKA T, MABUCHI M, etal. Machanical and Corrosion Properties of AZ31 Magnesium Alloy Repeatedly Recycled by Hot Extrusion. Materials Transactions, Vol. 4 (2006), pp.1040-1046.

DOI: 10.2320/matertrans.47.1040