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Effect of Warm Rolling on Microstructure and High Temperature Mechanical Behavior of a Nano-Structured Al-8Fe-2Mo-2V-1Zr Alloy Won-Yong Kim 1, a , Jae-Sung Park2, b and Mok-Soon Kim2, c 1 Advanced Materials R&D Center, Korea Institute of Industrial Technology, 994-32 Dongchun-dong, Yeonsu-gu, Incheon 406-130, Korea 2 School of Materials Science and Engineering, Inha University, 253 Yonghyun-dong, Nam-gu, Incheon 402-751, Korea a wykim@kitech.re.kr, bpot1995@hanmail.net, cmskim@inha.ac.kr Keywords: Al-Fe alloy, Spray forming, Nano-structure, Warm rolling, Mechanical properties Abstract.
Forum Vol. 83-87 (1992), p. 119

Materials Science Forum 325-326, 255-262 (2000). 2.
Boron and silicon nitride for engineering ceramics (in Russian)/ Novye Ogneupory, №9, 2009. 5 Ceradyne, Inc., Advanced Technical Ceramics.- http://www.ceradyne.com 6 Accuratus Corporation. - http://www.accuratus.com 7 Ceramics based on oxygen-free silicon nitride and silicon carbide compounds (in Russian).- Federal State Unitary Enterprise Obninsk Research and Production Enterprise "Technologiya"- http://www.TECHNOLOGIYA.RU/TECH/CERAMICS

Wear Characteristics of Binary Mg-Al, Si, Zn Alloys coated by Plasma Electrolytic Oxidation Method Byung-Heum Song1,a, Ye-Lim Kim 2 and Si-Young Chang3 1 Department of Aeronautical Science & Flight Operation, Hankuk Aviation University, Kyunggi-do 412-791, Korea 2 Graduate student, Hankuk Aviation University, Kyunggi-do 412-791, Korea 3 Department of Material Engineering, Hankuk Aviation University, Kyunggi-do 412-791, Korea a Corresponding author : bhsong@hau.ac.kr Keywords: Plasma electrolytic oxidation, binary Mg alloys, roughness, thickness, microhardness, wear resistance.
Chang: Materials Science Forum.
[6] Japan Inst. of Magnesium: Handbook of Advanced Magnesium Technology (Kallos Publishing Co., Tokyo 2000).

. & Tech.of Advanced Materials, Vol.5 (2004),p. 491 [3] Gang S, Alfred C: Acta Meterialia, Vol.52(2004),p.4503 [4] Clark Jr R, Coughran b, et al:Engineering Failure Analysis, Vol.12(2005),p.520 [5] Dumont D, Deschamps A, Brechet Y: Mater.
Forum Vol. 331-337 (2000), p. 1071 [11] Machler R, Uggowitzer P J, Solenthaler C, Speidel MO:Mater Sci Technol, Vol.7(1991),p.447

Analytical modeling of austenite growth and phase evolution during reverse transformation from pearlite in high carbon steels Zhao-Dong Li1a, Zhi-Gang Yang1b, Tao Pan2c, Zhi-Xin Xia1d, Chi Zhang1e 1Key Laboratory of Advanced Materials, Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, China 2Institute of Structural Materials, Central Iron and Steel Research Institute, Beijing 100081, China alizd06@mails.tsinghua.edu.cn, bzgyang@tsinghua.edu.cn, ctaopan@vip.sina.com, dxzx08@mails.tsinghua.edu.cn, echizhang@tsinghua.edu.cn Keywords: pearlitic steels; austenitization; phase transformations.
Forum Vol. 638-642 (2010), p. 3400

Mitchell: Materials Science and Engineering A, 263 (1999) 217-223
Friedrich: Materials Science Forum, 618 (2009) 93-96
Xu: Advanced Materials Research, 709 (2013) 313-319

They are in fact the only alloys that are used as structural functional materials with SME in engineering and medicine [1–5].
Forum. 584–586 (2008) 470–474
Zhu, Nanostructuring of TiNi Alloy by SPD Processing for Advanced Properties, Mater.

College Program Designing Course Based on Computational Thinking Yizhen Liu1, a, Yanming Wang2,b ,Zhanwen Liu3,c 1, 2, 3 Engineering Practice Center, Liaoning Institute of Science and Technology , Benxi, China, alnbxlky@163.com, b17936988@qq.com,c349746241@qq.com Keywords: Computational Thinking; program design; teaching model; modularization.
The theoretical foundation of the advanced computer language and basic methods are derived from mathematics.
References [1] Zhou Yizhen: China Institute of computer communication, Vol. 3 (2007), p. 83 [2] Chen Guoliang: in: Forum computer course sixth University, edited by Lin Yang, Higher Education Press, Ji'nan (2012)

A Visualization Study of the Radial-Mode Abrasive Waterjet Turning Process for Alumina Ceramics Mirza Ahmed Ali1,a, Jingming Fan1,b, Hongtao Zhu2,c and Jun Wang1,d 1School of Mechanical and Manufacturing Engineering, The University of New South Wales, Sydney, NSW 2052, Australia 2Centre for Advanced Jet Engineering Technologies, School of Mechanical Engineering, MOE Key Laboratory of High-efficiency and Clean Mechanical Manufacture, Shandong University, Jinan 250061, China aa.mirza@unsw.edu.au, bjmfan@unsw.edu.au, chtzhu@sdu.edu.cn, djun.wang@unsw.edu.au Keywords: Abrasive waterjet turning; Visualization; Turning process; Ceramics Abstract: A visualization study of the radial-mode abrasive waterjet (AWJ) turning process on an alumina ceramic is presented to gain an understanding of cutting front development process and hence the material removal mechanisms.
Wang: Waterjet Machining of Engineering Materials: Trans Tech Publications, Uetikon-Zuerich, Switzerland, 2003
International Journal of Advanced Manufacturing Technology, Vol 15 (1999), pp. 757-768
Hashish: Turning with abrasive-waterjets-A first investigation, Journal of Engineering for Industry, Vol. 109 (1987), pp. 281-290
World Academy of Science, Engineering and Technology, Vol 38 (2010): pp. 359-363

An analysis of the microstructure and mechanical properties of rapidly solidified Al-1Fe-1Ni- 5Mg alloy Anna Kula1,a*, Ludwik Blaz1,b and Makoto Sugamata2,b 1 Faculty of Non-Ferrous Metals, AGH – University of Science and Technology, 30-059 Cracow, Poland 2 Department of Mechanical Engineering, College of Industrial Technology, Nihon University, 1-2-1 Izumi-cho, Narashino Chiba 275 – 8575, Japan a kula@agh.edu.pl, b blaz@agh.edu.pl, c sugamata@cit.nihon-u.ac.jp, Keywords: aluminum alloys, rapid solidification, plastic consolidation, TEM Abstract.
Srivatsan, The rapid solidification processing of materials: science, principles, technology, advances and applications, J.
Forum 416-418 (2003) 359-368 [6] D.
Forum 674 (2011) 165-170 [12] M.