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Online since: October 2011
Authors: Karol Velíšek, Angela Javorova, Jarmila Oravcová
Introduction
Modern manufacturing is currently located in production areas and production areas require the integration of different types of engineering and manufacturing operations.
Conclusion Development and implementation of the 3D models for automated systems engineering, which are focuses on the assembly system design is an important part of support systems developing.
In: First forum of young researches : In the framework of International Forum "Education Quality - 2008", Proceedings. 23 April, 2008, Izhevsk, Russia.
In: International symposium on Advanced Engineering & Applied Management - 40th Anniversary in Higher Education : Romania /Hunedoara/ 4-5 November, 2010. - Hunedoara : Faculty of Engineering Hunedoara, 2010.
Conclusion Development and implementation of the 3D models for automated systems engineering, which are focuses on the assembly system design is an important part of support systems developing.
In: First forum of young researches : In the framework of International Forum "Education Quality - 2008", Proceedings. 23 April, 2008, Izhevsk, Russia.
In: International symposium on Advanced Engineering & Applied Management - 40th Anniversary in Higher Education : Romania /Hunedoara/ 4-5 November, 2010. - Hunedoara : Faculty of Engineering Hunedoara, 2010.
Online since: October 2018
Authors: A.V. Ryabov, T.V. Prokaeva, Yu.E. Amosova
Ryabov, Aspects of production technology for the environment friendly free-machining steel with tin, Procedia Engineering, 129 (2015) 804-808
Ryabov, New medium-carbon free-machining steels containing bismuth and calcium, Materials Science Forum, 843 (2016) 101-105
Ryabov, Environmental aspects of lead-free free-machining steels production, Materials Science Forum, 843 (2016) 231-235
Shiraga, Machinability of BN added steels (4th report) – Wear characteristics of coated carbide tools and ceramic tools in turning, J. of the Japan Society for Precision Engineering, 10 (2006) 1227-1231
Yamada, Influence of additional electrical current on machinability of BN free-machining steel in turning, Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2 (2009) 171-178
Ryabov, New medium-carbon free-machining steels containing bismuth and calcium, Materials Science Forum, 843 (2016) 101-105
Ryabov, Environmental aspects of lead-free free-machining steels production, Materials Science Forum, 843 (2016) 231-235
Shiraga, Machinability of BN added steels (4th report) – Wear characteristics of coated carbide tools and ceramic tools in turning, J. of the Japan Society for Precision Engineering, 10 (2006) 1227-1231
Yamada, Influence of additional electrical current on machinability of BN free-machining steel in turning, Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2 (2009) 171-178
Online since: December 2010
Authors: Andriy A. Burbelko, Edward Fraś, Wojciech Kapturkiewicz, Daniel Gurgul, Jorge Antonio Sikora
Biltgen: in Modeling
of Casting, Welding and Advanced Solidification Process, edited by B.G.
Lopez, in: Modeling of Casting, Welding and Advanced Solidification Processes IX, ed.
Dilthey: Modelling and Simulation in Materials Science and Engineering Vol. 12 (2004), p. 33 [20] M.F.
Forum Vol. 649 (2010), p. 217 [23] A.A.
Pavlik, in: Modeling of Casting, Welding and Advanced Solidification Processes VIII, edited by B.G.
Lopez, in: Modeling of Casting, Welding and Advanced Solidification Processes IX, ed.
Dilthey: Modelling and Simulation in Materials Science and Engineering Vol. 12 (2004), p. 33 [20] M.F.
Forum Vol. 649 (2010), p. 217 [23] A.A.
Pavlik, in: Modeling of Casting, Welding and Advanced Solidification Processes VIII, edited by B.G.
Online since: October 2007
Authors: Mok Soon Kim, Taek Kyun Jung, Hyouk Chon Kwon, W.Y. Kim, S. Yi
Kwon
2,b and S.Yi3,a
1
School of Materials Science and Engineering, Inha University, 253 Yonghyun-dong,
Nam-gu, Incheon 402-751, Korea
2
Advanced Materials R&D Center, Korea Institute of Industrial Technology, # 7-47
Songdo-dong, Yeonsu-gu, Incheon 406-800, Korea
3
Dept. of Mechanical and Materials Engineering, Portland State University, Portland, OR
97207, USA
1,a
jtk0134@hanmail.net, 1,bmskim@inha.ac.kr
Keywords : Al-8Fe-TM based alloy, melt spinning, hot extrusion, tensile property
Abstract.
Forum, Vols. 510-511 (2006), p.854-857 [3] W.Y.
Forum, Vol. 486-487 (2005), p.411 [4] J.S.
Forum, Vol. 439 (2003), p.314 [5] W.Y, Kim, J.S.
Forum, Vols. 510-511 (2006), p.854-857 [3] W.Y.
Forum, Vol. 486-487 (2005), p.411 [4] J.S.
Forum, Vol. 439 (2003), p.314 [5] W.Y, Kim, J.S.
Online since: December 2004
Authors: Yu Ying Yang, Zhen Zhong Sun, J.Y. Li, L.R. Guo, Q.B. Hang, Yu Quan Chen
Materials Science Forum Vols. *** (2004) pp.834-838
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
The Experiment Analysis and Numerical Simulation on Fracture of
Complex-shaped Part Drawing
Z.Z.
Hang 1,a 1 Mechanical and Power Engineering College, Harbin University of Science and Technology, P.
China 2 School of Materials Science and Engineering, Harbin Institute of Technology, P.
Materials Science Forum Vols. *** 835 The mechanical properties of the material used in this investigation are displayed in Table1.
t [mm] σs [Mpa] E [Mpa] n r 0.8 130 2.07×105 0.256 2.60 1 2 3 4 Fig.4 Four stages of drawing operation 0 10 20 30 40 50 60 70 80 90 100 - 50 -40 -30 -20 -10 0 10 20 30 40 50 ε 1 % ε 2 % Fig.3 Forming limit diagram (FLD) Table 1 Mechanical properties of material Fig.2 The fracture on drawing part of water channel 1 Fig.1 Drawing part of water channel and diagram of measuring site Advances in Materials Manufacturing Science and Technology 836 Fig.7 The effective strain distribution of water channel at the end of formation Numerical Simulation The numerical simulation is performed with the non-linear code LS-DYNA.
Hang 1,a 1 Mechanical and Power Engineering College, Harbin University of Science and Technology, P.
China 2 School of Materials Science and Engineering, Harbin Institute of Technology, P.
Materials Science Forum Vols. *** 835 The mechanical properties of the material used in this investigation are displayed in Table1.
t [mm] σs [Mpa] E [Mpa] n r 0.8 130 2.07×105 0.256 2.60 1 2 3 4 Fig.4 Four stages of drawing operation 0 10 20 30 40 50 60 70 80 90 100 - 50 -40 -30 -20 -10 0 10 20 30 40 50 ε 1 % ε 2 % Fig.3 Forming limit diagram (FLD) Table 1 Mechanical properties of material Fig.2 The fracture on drawing part of water channel 1 Fig.1 Drawing part of water channel and diagram of measuring site Advances in Materials Manufacturing Science and Technology 836 Fig.7 The effective strain distribution of water channel at the end of formation Numerical Simulation The numerical simulation is performed with the non-linear code LS-DYNA.
Potential Benefits of Silicon Carbide Zener Diodes Used as Components of Intrinsically Safe Barriers
Online since: September 2007
Authors: Irina P. Nikitina, Nicolas G. Wright, Konstantin Vassilevski, Alton B. Horsfall, G.J. Phelps, P. Lark
., 77 Ripponden Road, Oldham, Lancashire, OL1 4EL, United Kingdom
2
School of Electrical, Electronic and Computer Engineering, Merz Court, Newcastle University,
Newcastle upon Tyne, NE1 7RU, United Kingdom
a
email: plark@gb.pepperl-fuchs.com
Keywords: Avalanche breakdown, Zener diode, Intrinsically safe barrier
Abstract.
Shur: Properties of Advanced Semiconductor Materials: GaN, AlN, InN, BN, SiC, SiGe, John Wiley & Sons, Inc., 2001, ISBN 0-471-35827-4
Forum Vol. 353-356 (2001), p. 735
Forum, Vol. 389-393 (2002), p. 1317
Wright: Materials Science Forum, V. 457-460 (2004), p. 1029
Shur: Properties of Advanced Semiconductor Materials: GaN, AlN, InN, BN, SiC, SiGe, John Wiley & Sons, Inc., 2001, ISBN 0-471-35827-4
Forum Vol. 353-356 (2001), p. 735
Forum, Vol. 389-393 (2002), p. 1317
Wright: Materials Science Forum, V. 457-460 (2004), p. 1029
Online since: April 2010
Authors: Takashi Nakamura, Takuji Hosoi, Takayoshi Shimura, Heiji Watanabe, Yuu Watanabe, Yusuke Kagei, Takashi Kirino, Shuhei Mitani, Yuki Nakano
Improved electrical properties of SiC-MOS interfaces
by thermal oxidation of plasma nitrided 4H-SiC(0001) surfaces
Yusuke Kagei1, a
, Takashi Kirino1 , Yuu Watanabe1 , Shuhei Mitani3 ,
Yuki Nakano3 , Takashi Nakamura
3
, Takuji Hosoi
1-2
,
Takayoshi Shimura
1
, and Heiji Watanabe1-2, b
1 Department of Material and Life Science, Graduate School of Engineering, Osaka University,
2-1 Yamadaoka, Suita, Osaka 565-0871, Japan
2
Research Center for Ultra-Precision Science and Technology, Graduate School of Engineering,
Osaka University, 2-1 Yamadaoka, Suita, Osaka 565-0871, Japan
3
New Material Devices R&D Center, ROHM CO., LTD., 21 Saiin Mizosaki-cho, Ukyo-ku, Kyoto
615-8585, Japan
a kagei@asf.mls.eng.osaka-u.ac.jp, b watanabe@mls.eng.osaka-u.ac.jp
Keywords: 4H-SiC, MOS devices, plasma nitridation, interface state density, defect passivation,
conductance method
Abstract.
Introduction Silicon carbide (SiC), which has excellent physical properties, such as wide band gap, high breakdown field, and high thermal conductivity, is the most promising candidate material for advanced normally-off power field-effect transistors.
Forum Vol. 389-393 (2002), p. 389 a: Mater.
Forum Vol. 615-617 (2009), p. 525 ett.
Forum Vol. 615-617 (2009), p. 541 [8] H.
Introduction Silicon carbide (SiC), which has excellent physical properties, such as wide band gap, high breakdown field, and high thermal conductivity, is the most promising candidate material for advanced normally-off power field-effect transistors.
Forum Vol. 389-393 (2002), p. 389 a: Mater.
Forum Vol. 615-617 (2009), p. 525 ett.
Forum Vol. 615-617 (2009), p. 541 [8] H.
Online since: December 2018
Authors: Sergey A. Aksenov, Firas Jarrar, Farid Enikeev, Donato Sorgente
This of course requires close coordination between the design and manufacturing teams working on the part design in what has become to be known as concurrent engineering.
Forum 838-839 (2016) 494-499
Forum 735 (2013) 415–421
Forum 735 (2013) 155-161
Peng, Development of an advanced superplastic forming process utilizing a mechanical pre-forming operation, Int.
Forum 838-839 (2016) 494-499
Forum 735 (2013) 415–421
Forum 735 (2013) 155-161
Peng, Development of an advanced superplastic forming process utilizing a mechanical pre-forming operation, Int.
Online since: December 2012
PREFACE
This volume contains some selected papers from the 2012 International Conference on
Advanced Materials Engineering and Technology (ICAMET 2012) which is to be held in
Penang, Malaysia during November 28-30, 2012, and is organized by Centre of Excellence
Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti
Malaysia Perlis.
The conference aims to provide a high level international forum for researchers, engineers and scientists to present their new advances and research results in the field of advanced materials engineering and technology.
This volume covered all the aspects of advanced materials engineering and technology, particularly of advanced characterization, biomaterials, biotechnology and life sciences, building materials, coating and surface engineering, composite and polymer materials, optical and photonic materials and any other related topics.
The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of advanced materials engineering and technology, and that will be as valuable reference source for further research.
Mohd Mustafa Al Bakri Abdullah Liyana Jamaludin Rafiza Abdul Razak Zarina Yahya Kamarudin Hussin Universiti Malaysia Perlis, MALAYSIA November, 2012 2012 International Conference on Advanced Materials Engineering and Technology (ICAMET 2012) Co-organized by King Abdul Aziz City Science & Technology (KACST), Kingdom Saudi Arabia University of Cambridge, London UK SMaRT@UNSW, University of New South Wales, Australia Norton University (NU), Cambodia University Malaysia Sarawak (UNIMAS), Malaysia Institute of Advanced Technology University of Putra Malaysia (UPM), Malaysia International Advisory Board Prof.
The conference aims to provide a high level international forum for researchers, engineers and scientists to present their new advances and research results in the field of advanced materials engineering and technology.
This volume covered all the aspects of advanced materials engineering and technology, particularly of advanced characterization, biomaterials, biotechnology and life sciences, building materials, coating and surface engineering, composite and polymer materials, optical and photonic materials and any other related topics.
The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of advanced materials engineering and technology, and that will be as valuable reference source for further research.
Mohd Mustafa Al Bakri Abdullah Liyana Jamaludin Rafiza Abdul Razak Zarina Yahya Kamarudin Hussin Universiti Malaysia Perlis, MALAYSIA November, 2012 2012 International Conference on Advanced Materials Engineering and Technology (ICAMET 2012) Co-organized by King Abdul Aziz City Science & Technology (KACST), Kingdom Saudi Arabia University of Cambridge, London UK SMaRT@UNSW, University of New South Wales, Australia Norton University (NU), Cambodia University Malaysia Sarawak (UNIMAS), Malaysia Institute of Advanced Technology University of Putra Malaysia (UPM), Malaysia International Advisory Board Prof.
Online since: June 2014
Authors: Marco Actis Grande, Ilaria Forno, Paolo Claudio Priarone, Luca Settineri
In recent years, however, a profound transformation has begun, driven by the global markets requiring robust engineering approaches to the analysis of new materials and of product/process optimization.
Conclusions The adoption of exhaustive engineering approaches to the analysis of new and alternative materials in a very traditional field as the jewelry one is a necessary basis to open new market sectors.
Cristina Marolda, formerly student at the Master in Jewelry Engineering carried out at the Politecnico di Torino, for the cooperation at this research during her thesis period.
Biagi: The jewelry identity project, in: Proc. of the 5th Jewelry Technology Forum (JTF), Vicenza, Italy, p. 6-13 (2008)
Actis Grande: I Have Your Back - How Innovative and Advanced Materials Cover Design in Complex Model Manufacturing, in: Proc. of the 26th Santa Fe Symposium on Jewelry Manufacturing Technology, Eddie Bell editor, Albuquerque, New Mexico, p. 203-225 (2012)
Conclusions The adoption of exhaustive engineering approaches to the analysis of new and alternative materials in a very traditional field as the jewelry one is a necessary basis to open new market sectors.
Cristina Marolda, formerly student at the Master in Jewelry Engineering carried out at the Politecnico di Torino, for the cooperation at this research during her thesis period.
Biagi: The jewelry identity project, in: Proc. of the 5th Jewelry Technology Forum (JTF), Vicenza, Italy, p. 6-13 (2008)
Actis Grande: I Have Your Back - How Innovative and Advanced Materials Cover Design in Complex Model Manufacturing, in: Proc. of the 26th Santa Fe Symposium on Jewelry Manufacturing Technology, Eddie Bell editor, Albuquerque, New Mexico, p. 203-225 (2012)