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Online since: May 2011
Authors: Jing Wen Liu, Bing Xin Li, Yan Xing, Ming Zhang, De Guang Meng
This can also be achieved by inviting people to attend forums and hearings on the subject.
Secondly, we can use the way of forums and hearings.
Learning from western countries like the USA and Canada, we can conclude that the engineer is also the spokesman of the public [7].
A strong coordinating ability in the engineer shall help the developer and company improve their traditional ideology.
Establishing Urban Planning Committee System Referring to the advanced experiences of cities like Shenzhen and Hong Kong, we may set up urban planning committee system to promote scientific and democratic principal.
Secondly, we can use the way of forums and hearings.
Learning from western countries like the USA and Canada, we can conclude that the engineer is also the spokesman of the public [7].
A strong coordinating ability in the engineer shall help the developer and company improve their traditional ideology.
Establishing Urban Planning Committee System Referring to the advanced experiences of cities like Shenzhen and Hong Kong, we may set up urban planning committee system to promote scientific and democratic principal.
Online since: May 2016
Authors: Alexandre Ellison, Erik Sörman, Björn Magnusson, Yu Yang, Michael Dudley, Jian Qiu Guo, Balaji Raghothamachar, Ouloide Goue, Björn Sundqvist
Mapping of Threading Screw Dislocations in 4H n-type SiC wafers
Alexandre Ellison1,a*, Erik Sörman1,b , Björn Sundqvist1,c ,
Björn Magnusson1,d , Yu Yang2,e, Jianqiu Guo2,f , Ouloide Goue2,g ,
Blaji Raghothamachar2,h , and Michael Dudley2,i
1 Norstel AB, Box 734, 60116 Norrköping, Sweden
2 Department of Materials Science and Engineering, State University of New York at Stony Brook, Stony Brook, NY 11794-2275, USA
aalex.ellison@norstel.com, berik.sorman@norstel.com, cbjorn.sundqvist@norstel.com, dbjorn.magnusson@norstel.com, eyu.yang@stonybrook.edu, fjqguo123@gmail.com, gouloide.goue@stonybrook.edu, hbalaji.raghothamachar@stonybrook.edu, imichael.dudley@stonybrook.edu
Keywords: Threading Screw Dislocation, Dislocation Density, X-ray topography, KOH.
Acknowledgments The topograph experiments were carried out at Advanced Photon Source (Beamline 1-BM), a U.S.
Forum 645-648 (2010) 645
Forum 457-460 (2004) 41
Forum 679-680 (2011) 269
Acknowledgments The topograph experiments were carried out at Advanced Photon Source (Beamline 1-BM), a U.S.
Forum 645-648 (2010) 645
Forum 457-460 (2004) 41
Forum 679-680 (2011) 269
Online since: November 2012
Authors: António Sergio Pouzada, Gean V. Salmoria, Carlos H. Ahrens, Janaina L. Leite
They combine properties from their components and follow the new trends of engineering applications, namely b polymer composites filled with metals [1, 2].
Virtual Modelling and Rapid Manufacturing - Advanced Research in Virtual and Rapid Prototyping, Taylor and Francis, London, 2005, p. 421
Arefinia, Analysis of the sedimentation process in reactive polymeric suspensions, Chemical Engineering Science 61 (2006) 7565-7578
Pouzada, Mechanical Properties of Epoxy Composites Filled with Short Steel Fibres for Hybrid Injection Moulds, Advanced Materials Forum IV 587-588 (2008) 222-226
Banthia, Curing study of epoxy resin by new aromatic amine functional curing agents along with mechanical and thermal evaluation, Materials Science and Engineering: A 464 (2007) 38-46.
Virtual Modelling and Rapid Manufacturing - Advanced Research in Virtual and Rapid Prototyping, Taylor and Francis, London, 2005, p. 421
Arefinia, Analysis of the sedimentation process in reactive polymeric suspensions, Chemical Engineering Science 61 (2006) 7565-7578
Pouzada, Mechanical Properties of Epoxy Composites Filled with Short Steel Fibres for Hybrid Injection Moulds, Advanced Materials Forum IV 587-588 (2008) 222-226
Banthia, Curing study of epoxy resin by new aromatic amine functional curing agents along with mechanical and thermal evaluation, Materials Science and Engineering: A 464 (2007) 38-46.
Online since: June 2014
Authors: Heinrich Möller, Gonasagren Govender, Pfarelo Daswa
Acknowledgements
The Department of Science and Technology (DST) in South Africa is acknowledged for funding under the Advanced Metals Initiative Program.
Materials Science Forum 690 (2011) 53-56
Advanced Engineering Materials 12 (2010) 559-571
Materials Science and Engineering A 316 (2001) 11-17
Materials Science Forum 765 (2013) 23-27.
Materials Science Forum 690 (2011) 53-56
Advanced Engineering Materials 12 (2010) 559-571
Materials Science and Engineering A 316 (2001) 11-17
Materials Science Forum 765 (2013) 23-27.
Online since: March 2018
Preface
As Honorary Chairman of the Executive Committee it is my great pleasure to present in this
Proceedings Book the selected peer reviewed papers of the 10th Japanese-Mediterranean Workshop
on Applied Electromagnetic Engineering for Magnetic, Superconducting, Multifunctional and Nano
Materials (JAPMED'10), a landmark in research and development of materials, advanced
manufacturing and electrical engineering, organized at Izmir Institute of Technology, Izmir, Turkey
on July 4-8, 2017.
The JAPMED Conference, held every two years, is jointly organized this time by the Project Center for Nanotechnology and Advanced Engineering, a joint initiative of the Greek National Center for Scientific Research "Demokritos" and the Russian Research Center "Kurchatov Institute", the Japan Society of Applied Electromagnetics and Mechanics, the two high level American Universities Texas A&M and University of Nevada Reno, the Faculty of Electrical Engineering and Electronics of the National Technical University of Athens and the Izmir Institute of Technology.
This Conference provides a forum for specialists from Universities, Research Centers and Industry of various countries worldwide to establish cooperation, to share knowledge and experience and the cross-fertilization of new ideas and developments in the design, analysis, new materials utilization and optimization techniques in the broad areas of electromagnetics and advanced manufacturing of advanced materials and their industrial applications in modern technological sectors: precision / ultraprecision engineering, nanotechnology, powder production and processing associated with high strain-rate phenomena, electricity and electronics, bioengineering, transportation, energy and environment.
The scope of the Conference has been further expanded over the years towards advanced manufacturing to include the modern advanced technological fields: nanotechnology, precision / ultraprecision manufacturing, biomedical engineering and transport, whilst, four years ago, two additional topics have been included, namely: the multifunctional materials, in relation also to computational mechanics, i.e. the interests of the International Institute for Multifunctional Materials for Energy Conversion (IIMEC) of the Texas A&M University, and the shock loading of materials and structures as a part of the that time established Shockwaves Cluster, involving cooperation between Greece, Russia, USA, Germany, Japan, China, Hungary, Ukraine and Turkey.
Kirko (Research Institute of Physics and Engineering, Russia) J.
The JAPMED Conference, held every two years, is jointly organized this time by the Project Center for Nanotechnology and Advanced Engineering, a joint initiative of the Greek National Center for Scientific Research "Demokritos" and the Russian Research Center "Kurchatov Institute", the Japan Society of Applied Electromagnetics and Mechanics, the two high level American Universities Texas A&M and University of Nevada Reno, the Faculty of Electrical Engineering and Electronics of the National Technical University of Athens and the Izmir Institute of Technology.
This Conference provides a forum for specialists from Universities, Research Centers and Industry of various countries worldwide to establish cooperation, to share knowledge and experience and the cross-fertilization of new ideas and developments in the design, analysis, new materials utilization and optimization techniques in the broad areas of electromagnetics and advanced manufacturing of advanced materials and their industrial applications in modern technological sectors: precision / ultraprecision engineering, nanotechnology, powder production and processing associated with high strain-rate phenomena, electricity and electronics, bioengineering, transportation, energy and environment.
The scope of the Conference has been further expanded over the years towards advanced manufacturing to include the modern advanced technological fields: nanotechnology, precision / ultraprecision manufacturing, biomedical engineering and transport, whilst, four years ago, two additional topics have been included, namely: the multifunctional materials, in relation also to computational mechanics, i.e. the interests of the International Institute for Multifunctional Materials for Energy Conversion (IIMEC) of the Texas A&M University, and the shock loading of materials and structures as a part of the that time established Shockwaves Cluster, involving cooperation between Greece, Russia, USA, Germany, Japan, China, Hungary, Ukraine and Turkey.
Kirko (Research Institute of Physics and Engineering, Russia) J.
Online since: February 2011
The 2011 International Conference on
Manufacturing Science and Engineering
(ICMSE 2011)
Sponsored by
Guangxi University, China
Guilin University of Electronic Technology, China
University of Wollongong, Autralia
Korea Maritime University, Korea
Hong Kong Industrial Technology Research Centre (ITRC), Hong Kong
Conference Organization
Consultative Committee
Academician Prof.
Zhihai Han, Xi'an Jiao Tong University, China Preface The International Conference on Manufacturing Science and Engineering is the premier forum for the presentation of new advances and research results in the fields of Manufacturing Science and Engineering.
The 1st International Conference on Manufacturing Science and Engineering, ICMSE 2009, was successfully held from Dec. 26 -28, 2009 at Zhuhai, China.
The 2nd international conference on Manufacturing Science and Engineering, ICMSE 2011, is held in Guilin, China, between 9 and 11 April 2011.
The present volumes provide up-to-date, comprehensive and worldwide state-of-the art knowledge of the manufacturing science and engineering, including: manufacturing process technology, advanced engineering materials, new and advanced materials, advances in mechanical design and advanced manufacturing systems.
Zhihai Han, Xi'an Jiao Tong University, China Preface The International Conference on Manufacturing Science and Engineering is the premier forum for the presentation of new advances and research results in the fields of Manufacturing Science and Engineering.
The 1st International Conference on Manufacturing Science and Engineering, ICMSE 2009, was successfully held from Dec. 26 -28, 2009 at Zhuhai, China.
The 2nd international conference on Manufacturing Science and Engineering, ICMSE 2011, is held in Guilin, China, between 9 and 11 April 2011.
The present volumes provide up-to-date, comprehensive and worldwide state-of-the art knowledge of the manufacturing science and engineering, including: manufacturing process technology, advanced engineering materials, new and advanced materials, advances in mechanical design and advanced manufacturing systems.
Online since: December 2004
Authors: Cheng Yong Wang, H.N. Ding, Ying Ning Hu
Introduction
Diamond sawblades are commonly used in civil engineering industry for the cutting of concrete
material replacing the conventional demolishing and rebuilding approaches.
In order to find out the characteristics of concrete sawing and improve the application and manufacturing of diamond saw blade for civil engineering, in this paper the cutting forces of different concrete especially reinforced concrete in dry cutting process were investigated.
Materials Science Forum Vols. *** 297 References [1] P.Bienert: Kreissaegen von Beton mit Diamant-Werkzeugen (Ph.D Dissertation, TU Hanover, 1978) (in German) [2] M.W.Bailey and G.J.Bullen: Sawing in the stone and civil engineering industries (IDR, 1979), p. 56 (in German) [3] Y.N.
Wei: Tool Engineering Vol. 35 (2001), p. 10 (in Chinese) [4] Y.N.
Wei: Tool Engineering Vol. 35 (2001), p. 21 (in Chinese) [5] B.Denkena, H.K.Tönshoff and J.C.Becker, et al: IDR, 2003,11, p.124 (in German) [6] X.Wei, H.W.Du, C.Y.Wang, et al: Key Engineering Materials Vol. 250, (2003), p. 181.
In order to find out the characteristics of concrete sawing and improve the application and manufacturing of diamond saw blade for civil engineering, in this paper the cutting forces of different concrete especially reinforced concrete in dry cutting process were investigated.
Materials Science Forum Vols. *** 297 References [1] P.Bienert: Kreissaegen von Beton mit Diamant-Werkzeugen (Ph.D Dissertation, TU Hanover, 1978) (in German) [2] M.W.Bailey and G.J.Bullen: Sawing in the stone and civil engineering industries (IDR, 1979), p. 56 (in German) [3] Y.N.
Wei: Tool Engineering Vol. 35 (2001), p. 10 (in Chinese) [4] Y.N.
Wei: Tool Engineering Vol. 35 (2001), p. 21 (in Chinese) [5] B.Denkena, H.K.Tönshoff and J.C.Becker, et al: IDR, 2003,11, p.124 (in German) [6] X.Wei, H.W.Du, C.Y.Wang, et al: Key Engineering Materials Vol. 250, (2003), p. 181.
Online since: October 2010
Authors: Carlos Tadeu Lauand, Francisco Rolando Valenzuela-Díaz, Wildor Theodoro Hennies, Guillermo R. Martín Cortés, G. de Tomi, V.H. Lauand, A. Stellin
Valenzuela-Diaz
Department of Mining and Petroleum Engineering, University of São Paulo, Brazil
Email: wildorth@usp.br
Key Words: Powder-Abrasive, Waterjet cut, Ultra-high pressure water jet, AWJ
ABSTRACT: The paper describes the technique developed for applying garnet powder abrasive ultra-high pressure water jet advanced technology (AWJ) to build accurate models of artistic objects.
The trophies were to be distributed among distinguished students who presented innovative techniques in physics and engineering fields in a technical symposium in Brazil.
R.; Technological Characteristics of Garnets for Ultra-High Pressure Water Jets In: Material Science Forum Vols. 416-418 (2003) pp.41-46 © 2003 Trans Tech Publications, Switzerland
Dimension Stone Cutting with AWJ Methods Material Science Forum Vols. 498-499 (November 2005) pp.482-487 © 2005 Trans Tech Publications, Switzerland.
The trophies were to be distributed among distinguished students who presented innovative techniques in physics and engineering fields in a technical symposium in Brazil.
R.; Technological Characteristics of Garnets for Ultra-High Pressure Water Jets In: Material Science Forum Vols. 416-418 (2003) pp.41-46 © 2003 Trans Tech Publications, Switzerland
Dimension Stone Cutting with AWJ Methods Material Science Forum Vols. 498-499 (November 2005) pp.482-487 © 2005 Trans Tech Publications, Switzerland.
Online since: June 2017
Authors: Jian Hua Wu, Xiao Hui Huang, Ji Xue Zhou, Bai Chang Ma, Yuan Sheng Yang, Wei Hong Li, Hai Hua Zhuang, Jin Wang
Protective Ability of Graphite Powder on Molten AZ91D Magnesium Alloy
Weihong Li1, a, Jixue Zhou1, b,*, Baichang Ma2, c, Jianhua Wu1, d,
Jinwei Wang2, e, Haihua Zhuang2, f, Yuansheng Yang3, g, Xiaohui Huang4,h,*
1Shandong Key Laboratory for High Strength Lightweight Metallic Materials, Advanced Materials Institute, Shandong Academy of Sciences, Jinan 250014, Shandong, China;
2Shandong Engineering Research Center for Lightweight Automobiles Magnesium Alloys, Advanced Materials Institute, Shandong Academy of Sciences, Jinan 250014, Shandong, China;
3Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, Liaoning, China
4Department of Material Science and Engineering, Shandong University, Jinan 250061,
Shandong, China
aliweihong@sdas.org, b,*zhoujx@sdas.org, cmabch@sdas.org, djianhw@sdas.org, ewjinw@sdas.org, f525485594@qq.com, gysyang@imr.ac.cn, h,*hxh@sdu.edu.cn
Keywords: AZ91D magnesium alloy, Graphite powder, Surface film, Protection mechanism.
Forum. 546-549 (2007) 119-122
Forum. 510-511 (2006) 806-809
Forum. 475-479 (2005) 2543-2546
Forum. 546-549 (2007) 119-122
Forum. 510-511 (2006) 806-809
Forum. 475-479 (2005) 2543-2546
Online since: February 2011
Authors: Hiroyuki Yoshida, Hiroyuki Nakayama, Liang Hao, Yun Lu, Mitsuji Hirohashi
Formation of TiO2/Ti Composite Photocatalyst Film
by 2-step Mechanical Coating Technique
Yun Lu1,a, Hiroyuki Yoshida2, Hiroyuki Nakayama3, Liang Hao2
and Mitsuji Hirohashi1
1Graduate school & Faculty of Engineering, Chiba University, Japan
1-33, Yayoi-cho, Inage-ku, Chiba 263-8522, Japan
2Graduate school, Chiba University, Japan
3Toyota Motor Corporation, Japan
aluyun@faculty.chiba-u.jp
Keywords: 2-step mechanical coating technique, TiO2, composite photocatalyst, composite film, photocatalytic activity.
Abstract: In the present work, 2-step mechanical coating technique (2-step MCT), an advanced MCT, was proposed and carried out to form TiO2/Ti composite photocatalyst film with anatase TiO2.
In the present work, an advanced MCT, 2-step mechanical coating technique (2-step MCT) was proposed for forming TiO2/Ti composite photocatalyst film with anatase TiO2 based on the idea of MCT.
Hirohashi: 5th International Forum on Advanced Material Science and Technology (IFAMST 5), Zhangjiajie, China, June 2006, P.30
Abstract: In the present work, 2-step mechanical coating technique (2-step MCT), an advanced MCT, was proposed and carried out to form TiO2/Ti composite photocatalyst film with anatase TiO2.
In the present work, an advanced MCT, 2-step mechanical coating technique (2-step MCT) was proposed for forming TiO2/Ti composite photocatalyst film with anatase TiO2 based on the idea of MCT.
Hirohashi: 5th International Forum on Advanced Material Science and Technology (IFAMST 5), Zhangjiajie, China, June 2006, P.30