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Online since: February 2013
Authors: Li Ping Xue, Shu Tai Zhang, Shi Jun He
The center dramatically advanced the development of the MPM, extended its application, and trained a large group of developers and users.
Patrick Hu et al. [21,22,23] at Advanced Dynamics Inc (ADI) [24] have successfully developed a commercial code specializing in FSI problems.
Sulsky, D, Kaul, A., "Implicit Dynamics in the Material-Point Method", Computer Methods in Applied Mechanics and Engineering, 2004,vol. 193, issue 12-14, pp. 1137-1170 [8].
Advanced Dynamics Inc. http://www.advanceddynamics-usa.com/index.htm [25].
Advanced Dynamics, http://www.adicn.com/ [26].
Patrick Hu et al. [21,22,23] at Advanced Dynamics Inc (ADI) [24] have successfully developed a commercial code specializing in FSI problems.
Sulsky, D, Kaul, A., "Implicit Dynamics in the Material-Point Method", Computer Methods in Applied Mechanics and Engineering, 2004,vol. 193, issue 12-14, pp. 1137-1170 [8].
Advanced Dynamics Inc. http://www.advanceddynamics-usa.com/index.htm [25].
Advanced Dynamics, http://www.adicn.com/ [26].
Online since: August 2004
Authors: Norikazu Ooka, Makoto Ebata
Norikazu Ooka
1,2, Makoto Ebata
2,3
1
Senior Technical Advisor, The Japan Welding Engineering Society
2
Working Group member for Promotion of Laboratory Accreditation,
The Japan Welding Engineering Society(JWES)
3
General Manager, Advanced Material Dept., Mitsui Engineering & Shipbuilding Co., Ltd.
However, it is also a fact that the scheme has such various subjects as improvement of clearness and impartiality, transition to an internationally acceptable accreditation scheme, expansion of applicable fields in addition to architectural steel structures, all-out adoption of quality system, and morals. [1][2] In response to such subjects, the Working Group for Promotion of Laboratory Accreditation of The Japan Welding Engineering Society has worked for establishing a new accreditation scheme for nondestructive testing organizations.
Abbreviations: IAF: International Accreditation Forum PAC: Pacific Accreditation Cooperation ILAC: International Laboratory Accreditation Cooperation MRA: Mutual Recognition Arrangement APLAC: Asia-Pacific Laboratory Accreditation Cooperation MS: Management System Figure 1.
Various schemes for conformity assessment Title of Publication (to be inserted by the publisher) The new laboratory accreditation scheme for nondestructive testing organizations (referred to as the Laboratory Accreditation Scheme) is to be co-managed by The Japan Accreditation Board for Conformity Assessment (referred to as JAB) which is a laboratory accreditation body in Japan and The Japan Welding Engineering Society (referred to as JWES) which is delegated by JAB for assessment of laboratories.
The Japan Accreditation Board for Conformity Assessment (JAB) The Japan Welding Engineering Society (JWES) Figure 3.
However, it is also a fact that the scheme has such various subjects as improvement of clearness and impartiality, transition to an internationally acceptable accreditation scheme, expansion of applicable fields in addition to architectural steel structures, all-out adoption of quality system, and morals. [1][2] In response to such subjects, the Working Group for Promotion of Laboratory Accreditation of The Japan Welding Engineering Society has worked for establishing a new accreditation scheme for nondestructive testing organizations.
Abbreviations: IAF: International Accreditation Forum PAC: Pacific Accreditation Cooperation ILAC: International Laboratory Accreditation Cooperation MRA: Mutual Recognition Arrangement APLAC: Asia-Pacific Laboratory Accreditation Cooperation MS: Management System Figure 1.
Various schemes for conformity assessment Title of Publication (to be inserted by the publisher) The new laboratory accreditation scheme for nondestructive testing organizations (referred to as the Laboratory Accreditation Scheme) is to be co-managed by The Japan Accreditation Board for Conformity Assessment (referred to as JAB) which is a laboratory accreditation body in Japan and The Japan Welding Engineering Society (referred to as JWES) which is delegated by JAB for assessment of laboratories.
The Japan Accreditation Board for Conformity Assessment (JAB) The Japan Welding Engineering Society (JWES) Figure 3.
Online since: April 2021
Authors: Igor A. Savin, Renat V. Gavariev, Ksenia N. Gavarieva
Series: Materials Science and Engineering 240 (2017)
Advanced casting methodologies: inert environment vacuum casting and solidification, die casting, compocasting, and roll casting, casting, semi-solid forming and hot metal forming, (2014) Comprehensive Materials Processing, vol. 5, Elsevier Ltd., pp. 3-37
Series: Materials Science and Engineering 570 (2019) 012072
IOP Conference Series: Materials Science and Engineering, 86 (1), 2015
International Journal of Engineering and Technology(UAE) 7(4), 2018, pp. 71-73/ [15] Gilman, V.
Advanced casting methodologies: inert environment vacuum casting and solidification, die casting, compocasting, and roll casting, casting, semi-solid forming and hot metal forming, (2014) Comprehensive Materials Processing, vol. 5, Elsevier Ltd., pp. 3-37
Series: Materials Science and Engineering 570 (2019) 012072
IOP Conference Series: Materials Science and Engineering, 86 (1), 2015
International Journal of Engineering and Technology(UAE) 7(4), 2018, pp. 71-73/ [15] Gilman, V.
Online since: February 2015
Authors: Mohd Hamdi Abdul Shukor, Sharifah Adzila Syed Abu Bakar, Iis Sopyan, Ramesh T. Subramaniam
Hamdi4d
1Department of Materials Engineering and Design, Faculty of Mechanical and Manufacturing
Engineering, Universiti Tun Hussein Onn Malaysia,
86400 Batu Pahat, Johor
2,4Centre of Advanced Manufacturing & Material Processing (AMMP), Department of
Mechanical Engineering, Faculty of Engineering, University of Malaya,
50603 Kuala Lumpur, Malaysia
3Department of Manufacturing and Materials Engineering, Faculty of Engineering, International
Islamic University Malaysia
aadzila@uthm.edu.my, bramesh79@um.edu.my, csopyan@iium.edu.my, dhamdi@um.edu.my
Keywords: Magnesium, Mechanochemical, Hydroxyapatite, X-ray Diffraction, Fourier Transform Infrared.
Forum. 694 (2011) 118-122
Forum. 694 (2011) 118-122
Online since: May 2009
Authors: Shao Hui Yin, Hitoshi Ohmori, Yoshihiro Uehara, Yong Jian Zhu, Wei Min Lin, Feng Jun Chen, Y.F. Fan
Nano-precision Synergistic Finishing Process Integrated ELID-grinding
and MRF
S.H.Yin1, a
, H.Ohmori2, b
, W.M.Lin3, c, Y.Uehara4, d
, F.J.Chen1, e
, Y.F.Fan1, f
and Y.J.Zhu1, g
1
National Engineering Research Center for High Efficiency Grinding, Hunan University, Changsha
410082, China
2
Material Fabrication Laboratory, RIKEN (The Institute of Physical and Chemical Research) 2-1,
Hirosawa, Wako-shi, Saitama 351-0198 Japan
3
Dept. of Machine Intelligence & Systems Engineering, Akita Prefectural University, Akita 015-0055,
Japan
4
VCAD Fabrication Team, RIKEN, 2-1, Hirosawa, Wako-shi, Saitama 351-0198 Japan
a
Shyin2000@hotmail.com, btuelid@myad.jp,
clin@nano.gr.jp,
d
uehara@micro.ne.jp,
e
abccfj@hotmail.com, fyffan.cn@gmail.com,
g
zhuyongjian_hn@yahoo.com.cn
Keywords: ELID (Electrolytic in-process dressing) grinding, MRF (Magneto-rheological finishing),
Ultra- precision synergistic finishing process, Form accuracy, Surface roughness
Abstract.ELID
Introduction Automatic and high-efficiency nano-precision manufacturing technique of optical lens surface with sub-nanometer surface micro-roughness, ~λ/20 nm figure accuracy, and damage-free is greatly demanded by advanced optical fields.
Lin: Key Engineer.
Wu et al: Materials Science Forum, Vol. 471-472(2004), pp. 6-10
Introduction Automatic and high-efficiency nano-precision manufacturing technique of optical lens surface with sub-nanometer surface micro-roughness, ~λ/20 nm figure accuracy, and damage-free is greatly demanded by advanced optical fields.
Lin: Key Engineer.
Wu et al: Materials Science Forum, Vol. 471-472(2004), pp. 6-10
Online since: August 2013
Authors: Guan Qi Liu, Long Shao, Ting Hu
The Simulation Research of The Effect of Distributed Generation On Voltage of Distribution Network
LIU Guan-qi, SHAO Long, HU Ting
Department of Electrical Engineering, North China Electric Power University, Baoding, China
E-mail: shaolong211@126.com
Keywords:Distributed Generation; Distribution network; Voltage distribution; Simulation analysis
Abstract.
Advances of Power System & Hydroelectric Engineering. 2008. 24(2): 2-3
Application of MATLAB/SIMULINK in Power System Engineering Simulation[D].
International Forum on Strategic Technology. 2011,6: 1.
Advances of Power System & Hydroelectric Engineering. 2008. 24(2): 2-3
Application of MATLAB/SIMULINK in Power System Engineering Simulation[D].
International Forum on Strategic Technology. 2011,6: 1.
Online since: August 2011
Authors: Min Wang, Chun Zhang
Rolling force in Hot Rolling of Large Rings
WANG Min a,ZHANG Chun b
Department of Material Engineering, Hubei University of Automotive Technology,
Shiyan 442002, China
a sprit418@mail.nwpu.edu.cn, bzhangchun_sy@qq.com
Keywords: hot rolling of large rings, titanium alloy, rolling force, finite element
Abstract.
During the process of hot ring rolling, the driver roll rotates around its stationary axis at a constant speed, the freely mounted idle roll advances at a constant feed rate towards the driver roll.
Wu: Journal of Plasticity Engineering Vol. 15 (2008), p. 6-13.
Yang: Materials Science Forum Vol. 561-565 (2007), p. 805-808
During the process of hot ring rolling, the driver roll rotates around its stationary axis at a constant speed, the freely mounted idle roll advances at a constant feed rate towards the driver roll.
Wu: Journal of Plasticity Engineering Vol. 15 (2008), p. 6-13.
Yang: Materials Science Forum Vol. 561-565 (2007), p. 805-808
Online since: April 2010
Authors: Ji Gui Cheng, Jin Chuan Zhu, Lei Wan, Hai Gen He
Fabrication of Graded WC-Co Cemented Carbides by a
Lamination Method
Cheng Jiguia, Zhu Jinchuan, Wan Lei and He Haigen
School of Materials Science and Engineering, Hefei University of Technology, Hefei 230009, China
a
jgcheng63@sina.com
Keywords: Functionally graded materials; WC-Co cemented carbides; Lamination
Abstract.
In some engineering applications, there exist different performance requirements for different working zones of a cemented carbide tool [2].
Lamination is now a widely employed process in manufacturing single-layer as well as multilayer products because of its technical and economical advances and great applicability for different materials [5].
Xia: Materials Science Forum, Vol.423-425(2003), p45
In some engineering applications, there exist different performance requirements for different working zones of a cemented carbide tool [2].
Lamination is now a widely employed process in manufacturing single-layer as well as multilayer products because of its technical and economical advances and great applicability for different materials [5].
Xia: Materials Science Forum, Vol.423-425(2003), p45
Online since: March 2010
Authors: Wan Cheng Zhou, Fa Luo, Shuai Fang Li, Chao Yin Nie, Xiao Kui Liu
Study on Doping and Microwave Permittivity of SiC Powders
Xiaokui Liu1,a,Chaoyin Nie1,b,Fa Luo
2.c,Wancheng Zhou2,d,ShuaiFang Li1,e
1
School of Materials Science and Engineering, Southwest University, Chongqing 400715, PRC
2
State Key Laboratory of Solidification Processing, Northwestern Polytechnical University,Xi'an,
Shanxi 710072, PRC
a
xiaokui@swu.edu.cn, bniecy@swu.edu.cn, cluofa@nwpu.edu.cn,
dwczhou@nwpu.edu.cn, elisf@swu.edu.cn
Keywords: SiC, Doping, Thermal diffusion, Microwave permittivity
Abstract.
In order to investigate the effect of high temperature and low atmosphere pressure on the structure and permittivity of SiC powders, the starting powders were treated for 1 hour in an argon atmosphere of 5 Pa at 2000℃ in advance.
Kitagawa: Thin Solid Films, Vol.517 (2009), p.3524 [2]Bernhole J.: Materials Science and Engineering, Vol.Bll(1992,p.265 [3]N.
Forum, 475-479 (2005) , p.3571 [6] Y.
In order to investigate the effect of high temperature and low atmosphere pressure on the structure and permittivity of SiC powders, the starting powders were treated for 1 hour in an argon atmosphere of 5 Pa at 2000℃ in advance.
Kitagawa: Thin Solid Films, Vol.517 (2009), p.3524 [2]Bernhole J.: Materials Science and Engineering, Vol.Bll(1992,p.265 [3]N.
Forum, 475-479 (2005) , p.3571 [6] Y.
Online since: January 2014
Authors: Ying Chen, Bing Zi Wang
The Effect of 3D printing Technology on the Future Fashion Design and Manufacturing
Bingzi WANG1, a, Ying CHEN2,b
1Shanghai University of Engineering Science Post code: 201620,China
2 Shanghai University of Engineering Science Post code: 201620,China
a wangbingzi@126.com, b chenying39@126.com
Keywords: 3D print; design and production of clothing; additive manufacturing
Abstract.
[8] Dimitrov D,Schreve K,de Beer N.Advances in Three Dimensional Printing-State of the Art and Future Perspectives [A].10th European Forum on Rapid Prototyping and Manufacturing[C].Paris,France Sep,2004.
[8] Dimitrov D,Schreve K,de Beer N.Advances in Three Dimensional Printing-State of the Art and Future Perspectives [A].10th European Forum on Rapid Prototyping and Manufacturing[C].Paris,France Sep,2004.