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Online since: May 2012
Authors: Nicolae Faur, Cristian Sorin Nes, Angelica Enkelhardt
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.
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.
Online since: November 2013
Authors: Zi Jiang Hu
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)
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)
Online since: June 2018
Authors: Koang Yong Hyun, Koki Suzuki, Toshinori Taishi, Masaru Takahashi, Naomichi Tsuchimoto
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
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
Online since: June 2014
Authors: Jun Yang, Lan Fen Hu, Yan Zhao, Dan Dan Zhang, Yan Yan Yu
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.
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.
Online since: December 2013
Authors: Yi Sheng Chen, Fang Sung Cheng
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.
[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.
Online since: December 2012
Authors: Othman Mamat, Tahir Ahmad, Rafiq Ahmad
Introduction
Metal matrix-particulate composites (MMPCs) as a group of advanced materials have been developed over the last twenty years.
Iron based composites a new class of advanced materials reinforced with the hard ceramic particles are wear-resistance as well as corrosion resistance.
References [1] Y.B.Liu, S.C.Lim, Lu L., M.O.Lai., Journal of Materials Science, 29 (1994) 1999-2007 [2] W.D.Callister, Materials Science and Engineering: An Introduction.
Ceramics, 40(1-2) (2001) 34-39 [7] K.Das, T.K.Andyopadhyay, Materials Science and Engineering A, 379 (2004) 83-91 [8] S.Shamsuddin, S.Baharin, Z.Hussain, Z.A.Ahmad, J.
Mins. 18(2) (2008) 67-70 [10] S.Libardi, M.Leoni, L.Facchini, M.D.Incau, P.Scardi, Materials Science and Engineering A, 445-446 (2007) 244-250 [11] Hannink R.H.
Iron based composites a new class of advanced materials reinforced with the hard ceramic particles are wear-resistance as well as corrosion resistance.
References [1] Y.B.Liu, S.C.Lim, Lu L., M.O.Lai., Journal of Materials Science, 29 (1994) 1999-2007 [2] W.D.Callister, Materials Science and Engineering: An Introduction.
Ceramics, 40(1-2) (2001) 34-39 [7] K.Das, T.K.Andyopadhyay, Materials Science and Engineering A, 379 (2004) 83-91 [8] S.Shamsuddin, S.Baharin, Z.Hussain, Z.A.Ahmad, J.
Mins. 18(2) (2008) 67-70 [10] S.Libardi, M.Leoni, L.Facchini, M.D.Incau, P.Scardi, Materials Science and Engineering A, 445-446 (2007) 244-250 [11] Hannink R.H.
Online since: October 2017
Authors: Seitaro Mitsudo, Inyoman Nyoman Sudiana, Dahlia Dahlia, Wulan Purnama Sari, Prima Endang Susilowati, La Ode Ngkoimani
Firihu, Effect of Initial Green Samples on Mechanical Properties of Alumina Ceramic , Contemporary Engineering Sciences, Vol. 9, 2016, no. 12, 595-602
[10] I N Sudiana, S.
Mitsudo, S.Sabchevski, Preparation of Porous Ceramic with Controllable Additive and Firing Temperature, Advanced Materials Research, Vol. 277 (2011) pp. 151-158 [14] H.
Kuwayama, Grain Growth in Millimeter Wave Sintered Alumina Ceramics , Advanced Materials Research, Vol.789 (2013), pp. 279-282 [17] M.
Mitsudo, Microwaves Enhanced Sintering Mechanisms in Alumina Ceramic Sintering Experiments, Contemporary Engineering Sciences, Vol. 9, 2016, 5, 237 – 247 [18] I.N.
Sudiana, 2.45 GHz microwave drying of cocoa bean, ARPN Journal of Engineering and Applied Sciences Vol. 12 No. 19, 2016, pp. 11595-11598 [21] Kingston, H.M.S., H.J.
Mitsudo, S.Sabchevski, Preparation of Porous Ceramic with Controllable Additive and Firing Temperature, Advanced Materials Research, Vol. 277 (2011) pp. 151-158 [14] H.
Kuwayama, Grain Growth in Millimeter Wave Sintered Alumina Ceramics , Advanced Materials Research, Vol.789 (2013), pp. 279-282 [17] M.
Mitsudo, Microwaves Enhanced Sintering Mechanisms in Alumina Ceramic Sintering Experiments, Contemporary Engineering Sciences, Vol. 9, 2016, 5, 237 – 247 [18] I.N.
Sudiana, 2.45 GHz microwave drying of cocoa bean, ARPN Journal of Engineering and Applied Sciences Vol. 12 No. 19, 2016, pp. 11595-11598 [21] Kingston, H.M.S., H.J.
Online since: May 2004
Materials science and engineering incorporate acquiring of the knowledge
on materials synthesis and processing, their composition and structure, properties and behaviour and
their functions and potentialities and its application to the devices, machines, units and other final
products.
Ninety-three papers selected by the Editors for inclusion in this volume are thematically presented in nine sections: I Thin Films and Nanostructures; II Solid State Phenomena; III Advanced Materials; IV Nanomaterials; V Spectroscopic Characterization; VI Synthesis and Processing; VII Powders and Ceramics; vn I Composites and IX Biomaterials.
Please allow me, honorable colleagues, to use this opportunity to express few personal opinions concerning present situation in the country, foremost connected to the condition of materials science and engineering between two conferences and tasks and goals of Yugoslav Materials Research Society.
On the other hand, honorable colleagues, as you know materials science and engineering worldwide reaches sky-high and present the area of huge intellectual and technological challenges.
They will own ideas that will be fo undations for new advanced technologies as a support of future industry.
Ninety-three papers selected by the Editors for inclusion in this volume are thematically presented in nine sections: I Thin Films and Nanostructures; II Solid State Phenomena; III Advanced Materials; IV Nanomaterials; V Spectroscopic Characterization; VI Synthesis and Processing; VII Powders and Ceramics; vn I Composites and IX Biomaterials.
Please allow me, honorable colleagues, to use this opportunity to express few personal opinions concerning present situation in the country, foremost connected to the condition of materials science and engineering between two conferences and tasks and goals of Yugoslav Materials Research Society.
On the other hand, honorable colleagues, as you know materials science and engineering worldwide reaches sky-high and present the area of huge intellectual and technological challenges.
They will own ideas that will be fo undations for new advanced technologies as a support of future industry.
Online since: October 2012
Authors: H.V. Atkinson, Sinan Kandemir, David P. Weston
Metal matrix nanocomposites (MMNCs) are promising materials to produce engineering components for the automotive and aerospace industry.
Schoenung, Investigation of Aluminum-Based Nanocomposites with Ultra-High Strength, Materials Science and Engineering A. 527 (2009) 305-316
Li, Ultrasonic Cavitation-Based Nanomanufacturing of Bulk Aluminium Matrix Nanocomposites, Journal of Manufacturing Science and Engineering. 129 (2007) 252-255
Li, AZ91D/TiB2 Nanocomposites Fabricated by Solidification Nanoprocessing, Advanced Engineering Materials. 14, No.5 (2012) 291-295
Atkinson, Production of Aluminium Matrix Nanocomposite Feedstock for Thixoforming by an Ultrasonic Method, Key Engineering Materials. 504-506 (2012) 339-344
Schoenung, Investigation of Aluminum-Based Nanocomposites with Ultra-High Strength, Materials Science and Engineering A. 527 (2009) 305-316
Li, Ultrasonic Cavitation-Based Nanomanufacturing of Bulk Aluminium Matrix Nanocomposites, Journal of Manufacturing Science and Engineering. 129 (2007) 252-255
Li, AZ91D/TiB2 Nanocomposites Fabricated by Solidification Nanoprocessing, Advanced Engineering Materials. 14, No.5 (2012) 291-295
Atkinson, Production of Aluminium Matrix Nanocomposite Feedstock for Thixoforming by an Ultrasonic Method, Key Engineering Materials. 504-506 (2012) 339-344
Online since: August 2013
Authors: Muhammad Farid, Yu Min Zhu, Zhao Gang, Raja Ahsan Javed, Ashleigh Chatto
Dai, Journal of Bionic Engineering, 2007, Vol.4 (3)
Society for Optical Engineering, v 4329, p 458-465, 2001 [28] T.
Dai, Journal of Bionic Engineering, 2007, Vol.4 (3)
[41] Zhu et al, Advanced Materials Research, v. 97(101), p. 1590-1594, 2010
[65] Cheng et al, Advanced Materials Research, v 150-151, p 1301-1304, November 6, - 8, 2010
Society for Optical Engineering, v 4329, p 458-465, 2001 [28] T.
Dai, Journal of Bionic Engineering, 2007, Vol.4 (3)
[41] Zhu et al, Advanced Materials Research, v. 97(101), p. 1590-1594, 2010
[65] Cheng et al, Advanced Materials Research, v 150-151, p 1301-1304, November 6, - 8, 2010