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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

Aline Márcia Ferreira Dias da Silva¹,a, Roberto Trindade Faria Jr. ¹,b, Rosane Toledo¹,c, Verônica Scarpini Candido²,d, Sergio Neves Monteiro²,e, Carlos Maurício Fontes Vieira¹,f 1- UENF - State University of the Northern Rio de Janeiro, UENF, Advanced Materials Laboratory, LAMAV; Av.
Alberto Lamego, 2000, 28013-602, Campos dos Goytacazes, Brazil. 2- IME - Military Institute of Engineering, Department of Materials Science, Praça General Tibúrcio, 80, 22290-270, Rio de Janeiro, Brazil.
Forum 727-728 (2012) 993-998

Forum Vol. 32 (2008), p. 29
Xia: Advanced Engineering Materials Vol. 12 (2010), p. 724

Aviles et al: Mechanics Biomaterials: Stent, Application of Engineering Mechanics in Medicine, GED – University of Puerto Rico, Mayaguez, (2004) [7] C.
Mihalea: Advanced Materials and Structures, Politehnica (1999) [8] G.
Duerig: Medical uses of nitinol, Materials Science Forum, Vols. 327-328 (2000), p. 63-70 [14] P.

Disaster risk management is a kind of all-hazard management theory researching on methods coping with natural disasters, which is an advanced theory and mode for international disaster prevention and reduction and disaster management.
Risk reduction strategy To help implement the HFA, the International Strategy for Disaster Reduction (ISDR) now includes a “platforms system” as a new world forum for shaping disaster risk reduction policies, with the active participation of governments, civil society and specialized agencies, in addition to the United Nations system.
Compensation and benefit sharing: Why resettlement policies and practices must be reformed[J].Water Science and Engineering,2008(1)

Hyun1,e 1Faculty of Engineering, Shinshu University, Wakasato, Nagano 380-8553, Japan 2Center for Energy and Environmental Science, Shinshu University, Wakasato, Nagano 380-8553, Japan ataishi@shinshu-u.ac.jp, b16w2041j@shinshu-u.ac.jp, c17w2059e@shinshu-u.ac.jp, d17st206j@shinshu-u.ac.jp, ekyhyun@shinshu-u.ac.jp Keywords: SiC bulk crystal, Solution growth, Dipping, Saturation of carbon, Polytype Abstract.
Forum 740–742 (2013) 73–76
Suzuki, Solution growth of SiC crystal from the crucible bottom, Proc. of The 6th International Symposium on Advanced Science and Technology of Sillicon Materials, 2012, pp. 67-70

Research on Applied-information Technology in Reformation System of the Physical Examination Mode of School infirmaries Lanfen Hu1,a,Yan Zhao1, a, Dandan Zhang2, a, Yanyan Yu2,b and Jun Yang2, b 1School infirmary, Yunnan University, Kunming, 650091, China 2School of Information Science and Engineering, Yunnan University, Kunming, 650091, China azddynu_1227@163.com, bjunyang@ynu.edu.cn Keywords: Physical examination mode; medical personnel structure; medical resources; information technology.
Years of investment enables school infirmaries have a high level of medical personnel team and many advanced medical equipment, but the intervention of the health insurance makes the number of physical examination people increasingly shrink, coupled with the shortage of financial support, resulting in a waste of medical resources and the powerless and idle medical staff, which will limit the survival and development of school infirmaries [5,6].
Ji: Explore the Service Mode of the Integration of Hospital Medical Centers’ Health Management, Grassroots Medical Forum, Vol. 17 (2013) [10] B.

Using Soft Material as Die during Hot Forging Fang-Sung Cheng a and Yi-Sheng Chen b Department of Mechanical and Computer Aided Engineering, National Formosa University, 64 Wen-Hua Road, Huwei, Yunlin 632, TAIWAN a fscheng@nfu.edu.tw, b asdcxz159753@yahoo.com.tw Keywords: Soft die, hot forging, resistance heating, direct heating within die Abstract.
[8] Peijie Yan, Jingtao Han, Zhengyi Jiang, Heijie Li and Danyang Li, Warm and hot punching of ultra high strength steel sheet, Advanced Materials Research 472 (2012) 2783-2787
[9] Men Zheng-xing, Zhou Jie and Xu Zhi-min, Sinter-joining of different metal powder compacts using resistance heating, Materials Science Forum 704 (2012) 252-260.