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Online since: February 2014
ICCPMT 2013 is sponsored by Information Engineering Research Institute, American.
The conference aims to provide a high-level international forum for engineers, scientists, and students to present their new advances and research results in the field of Components, Packaging and Manufacturing Technology.
The papers were grouped into 4 chapters: Chapter1: Materials Science and Materials Chapter2: Mechanics Chapter3: Modelling, Design and Manufacturing Chapter4: Automation, Control, Information Technology and MEMS The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of Components, Packaging and Manufacturing Technology, and that it will be a valuable reference source for further research.
With our warmest regards Andy Wu ICCPMT 2013 Organizing Committee Honorary Chair Yuan Lee, Northwestern University, USA General Chairs Jun Zhang, Huazhong University of Science and Technology, China Minli Dai, Suzhou University, China Organizing Chairs Khine Soe Thaung, Maldives College of Higher Education, Maldives Biswanath Vokkarane, Society on Social Implications of Technology and Engineering, Maldives Program Chairs Xiang Lee, HKEDU, Hong Kong Honghua Tan, Wuhan University, China Publication Chair Andy Wu, Huazhong Normal University, China International Committee Minli Dai, Suzhou University, China Ying Zhang, Wuhan Uniersity, China Zhenghong Wu, East China Normal University Tatsuya Akutsu, ACM NUS Singapore Chapter, Singapore Aijun An, National University of Singapore,Singapore Yuanzhi Wang, Anqing Teachers' University, China Yiyi Zhouzhou,Azerbaijan State Oil Academy,Azerbaijan Khine Soe Thaung , Maldives
College of Higher Education, Maldives Biswanath Vokkarane, Society on Social Implications of Technology and Engineering Jessica Zhang, Information Engineering Research Institute, USA David Meng, Information Engineering Research Institute, USA Kath David, Information Engineering Research Institute, USA
The conference aims to provide a high-level international forum for engineers, scientists, and students to present their new advances and research results in the field of Components, Packaging and Manufacturing Technology.
The papers were grouped into 4 chapters: Chapter1: Materials Science and Materials Chapter2: Mechanics Chapter3: Modelling, Design and Manufacturing Chapter4: Automation, Control, Information Technology and MEMS The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of Components, Packaging and Manufacturing Technology, and that it will be a valuable reference source for further research.
With our warmest regards Andy Wu ICCPMT 2013 Organizing Committee Honorary Chair Yuan Lee, Northwestern University, USA General Chairs Jun Zhang, Huazhong University of Science and Technology, China Minli Dai, Suzhou University, China Organizing Chairs Khine Soe Thaung, Maldives College of Higher Education, Maldives Biswanath Vokkarane, Society on Social Implications of Technology and Engineering, Maldives Program Chairs Xiang Lee, HKEDU, Hong Kong Honghua Tan, Wuhan University, China Publication Chair Andy Wu, Huazhong Normal University, China International Committee Minli Dai, Suzhou University, China Ying Zhang, Wuhan Uniersity, China Zhenghong Wu, East China Normal University Tatsuya Akutsu, ACM NUS Singapore Chapter, Singapore Aijun An, National University of Singapore,Singapore Yuanzhi Wang, Anqing Teachers' University, China Yiyi Zhouzhou,Azerbaijan State Oil Academy,Azerbaijan Khine Soe Thaung , Maldives
College of Higher Education, Maldives Biswanath Vokkarane, Society on Social Implications of Technology and Engineering Jessica Zhang, Information Engineering Research Institute, USA David Meng, Information Engineering Research Institute, USA Kath David, Information Engineering Research Institute, USA
Online since: June 2014
Preface
Manufacturing Engineering is experiencing a great transformation due to unexpected
challenges arising from the current approach to optimization and continuous performance
improvement in manufacturing processes, production of large products, miniaturization,
development of new materials, manufacturing bioengineering oriented, etc.
The Manufacturing Engineering Society International Conference is conducted every two years fulfilling one of the most important objectives of the Manufacturing Engineering Society: creating forums for exchanging experiences in this field of knowledge.
Its main objective was to offer a meeting point for professionals, researchers and educators from industry, research centers and academia to present and discuss recent advances in the field of Manufacturing Engineering.
Thereby, this issue contains peer reviewed selected contributions on the aforementioned fields, showing the most recent advances in the most innovative trends in Materials Processing Technologies.
We hope that this work is of special usefulness to all the manufacturing engineers.
The Manufacturing Engineering Society International Conference is conducted every two years fulfilling one of the most important objectives of the Manufacturing Engineering Society: creating forums for exchanging experiences in this field of knowledge.
Its main objective was to offer a meeting point for professionals, researchers and educators from industry, research centers and academia to present and discuss recent advances in the field of Manufacturing Engineering.
Thereby, this issue contains peer reviewed selected contributions on the aforementioned fields, showing the most recent advances in the most innovative trends in Materials Processing Technologies.
We hope that this work is of special usefulness to all the manufacturing engineers.
Online since: January 2004
Authors: M. Härting, D.T. Britton, D.F. Kanguwe, C.M. Comrie, S. Nsengiyumva, S.R. Naidoo, T.E. Derry
Forum 363-365
(2001) 156
Forum 363-365 (2001) 56
Härting, Advanced Engineering Materials 4, (2002) 629.
Forum 363-365 (2001) 56
Härting, Advanced Engineering Materials 4, (2002) 629.
Online since: December 2013
ICMSET 2013 is co-sponsored by Science and
Engineering Institute, USA.
The conference is aimed at providing a platform for all of you to present leading-edge work in the fields of Advanced Materials Research.
The main conference themes and tracks are Material Science and Engineering Technology.
The main goal of ICMSET 2013 is also to provide international scientific forums for exchange of new ideas focus on Material Science and Engineering Technology.
Branislav Vuksanovic, School of Engineering, University of Portsmouth, Portsmouth, UK Prof.
The conference is aimed at providing a platform for all of you to present leading-edge work in the fields of Advanced Materials Research.
The main conference themes and tracks are Material Science and Engineering Technology.
The main goal of ICMSET 2013 is also to provide international scientific forums for exchange of new ideas focus on Material Science and Engineering Technology.
Branislav Vuksanovic, School of Engineering, University of Portsmouth, Portsmouth, UK Prof.
Online since: April 2014
The conference brings
together leading scientists and engineers in Micro-Nanotechnology to exchange
information on their latest research progress.
The conference provides a perfect forum for scientist and engineers of different disciplines to meet and discuss.
They are: Zheng You, Academician of China National Engineering Resarch Institute; Yuelin Wang, Vice Chairman of China Instrument and Control Society; Lining Sun, The Dean of the Electrical Engineering Academy at Soochow University; Jing Liu, Professor, Department of Biomedical Engineering at Tsinghua University; Peter Zeppenfeld, Dr.
-Prof. for Experimental Physics at the University of Linz; Wei Pang, Professor, College of Precision Instrument and Opto-electronics Engineering at Tianjin University; Zhihong Li, Professor, Microelectronics research institute , Peking University; Xiaodong Hu, Professor, State Key Laboratory of Precision Measurement Technology and instruments, Tianjin University; Weizheng Yuan, Director of Institute of Advanced Manufacturing Engineering, Northwest Polytechnic University; Jinliang Xu, Professor, North China Electric Power University; Yihui Wu , Head of Group of Micro/Nano Devices and System of the State Key Lab of Applied Optics; Thanks the staff of Tianjin University and CSMNT Secretary for the efforts they have made, and thanks all honored attendees.
The conference provides a perfect forum for scientist and engineers of different disciplines to meet and discuss.
They are: Zheng You, Academician of China National Engineering Resarch Institute; Yuelin Wang, Vice Chairman of China Instrument and Control Society; Lining Sun, The Dean of the Electrical Engineering Academy at Soochow University; Jing Liu, Professor, Department of Biomedical Engineering at Tsinghua University; Peter Zeppenfeld, Dr.
-Prof. for Experimental Physics at the University of Linz; Wei Pang, Professor, College of Precision Instrument and Opto-electronics Engineering at Tianjin University; Zhihong Li, Professor, Microelectronics research institute , Peking University; Xiaodong Hu, Professor, State Key Laboratory of Precision Measurement Technology and instruments, Tianjin University; Weizheng Yuan, Director of Institute of Advanced Manufacturing Engineering, Northwest Polytechnic University; Jinliang Xu, Professor, North China Electric Power University; Yihui Wu , Head of Group of Micro/Nano Devices and System of the State Key Lab of Applied Optics; Thanks the staff of Tianjin University and CSMNT Secretary for the efforts they have made, and thanks all honored attendees.
Online since: April 2010
Continuing the success of conferences organized in Beijing
(CICC-1, 1998), Kunming (CICC-2, 2001), Shenzhen (CICC-3, 2004), Chengdu (CICC-4, 2005),
and Changsha (CICC-5, 2007), CICC-6 offered an international forum for the presentation,
discussion and review of the latest advances in science and technology of high-performance ceramics.
Pan Wei and Jianghong Gong Department of Materials Science and Engineering Tsinghua University Beijing 100084 China Sponsors The Chinese Ceramic Society Organizers Center for Composite Materials, Harbin Institute of Technology State Key Laboratory of New Ceramics and Fine Processing, Tsinghua University Advanced Ceramics Division of the Chinese Ceramic Society International Advisory Committee Co-Chairman Longti LI (Tsinghua University, CHINA) Kunihito KOUMOTO (Nagoya University, JAPAN) Ik Jin KIM (Hanseo University, KOREA) Memebers F.
Pan Wei and Jianghong Gong Department of Materials Science and Engineering Tsinghua University Beijing 100084 China Sponsors The Chinese Ceramic Society Organizers Center for Composite Materials, Harbin Institute of Technology State Key Laboratory of New Ceramics and Fine Processing, Tsinghua University Advanced Ceramics Division of the Chinese Ceramic Society International Advisory Committee Co-Chairman Longti LI (Tsinghua University, CHINA) Kunihito KOUMOTO (Nagoya University, JAPAN) Ik Jin KIM (Hanseo University, KOREA) Memebers F.
Online since: April 2013
Preface
Dear Distinguished Delegates and Guests,
The Organizing Committee of ICAMR 2013 warmly welcomes you to the 2013 3rd
International Conference on Advanced Materials Research (ICAMR 2013), held on
January 19-20, 2013 in Dubai, UAE.
The conference is aimed at providing a platform for all of you to present leading-edge work in the fields of Advanced Materials Research.
The main conference themes and tracks are Material Sciences and Engineering.
The main goal of ICAMR 2013 is also to provide international scientific forums for exchange of new ideas focus on Material Sciences and Engineering.
R.Sudhakar, Dr.Mahalingam College of engineering and Technology, India Dr.Mahalingam College of Engineering and technology, Anna University, India Dr.
The conference is aimed at providing a platform for all of you to present leading-edge work in the fields of Advanced Materials Research.
The main conference themes and tracks are Material Sciences and Engineering.
The main goal of ICAMR 2013 is also to provide international scientific forums for exchange of new ideas focus on Material Sciences and Engineering.
R.Sudhakar, Dr.Mahalingam College of engineering and Technology, India Dr.Mahalingam College of Engineering and technology, Anna University, India Dr.
Online since: October 2006
Authors: Tangali S. Sudarshan, Roman Drachev, E. Deyneka, C. Rhodes, J. Schupp
Sudarshan1,e
1
Schupp Advanced Materials LLC. / Dept. of Electrical Engineering, University of South Carolina,
Columbia, SC 29208, USA
2
CAMSS, North Carolina A&T State University, Greensboro, NC 27411, USA
3
Dept. of Mechanical Engineering, University of South Carolina, Columbia, SC 29208, USA
a
roman.drachev@dowcorning.com,
b
edeyneka@nccu.edu, crhodes@engr.sc.edu,
d
drxtal@adelphia.net, esudarsha@engr.sc.edu
Keywords: PVT bulk growth; Furnace design; Numerical modeling; Growth defects.
Grange: Materials Science and Engineering Vols.
Hofmann: Materials Science and Engineering Vols.
Winnacker: Material Science and Engineering Vol.
Woolweber, Material Science and Engineering Vols.
Grange: Materials Science and Engineering Vols.
Hofmann: Materials Science and Engineering Vols.
Winnacker: Material Science and Engineering Vol.
Woolweber, Material Science and Engineering Vols.
Online since: December 2004
Authors: Y. Lu, Hang Gao, K. Zhao
Lu
2,b
1School of Mechanical Engineering, Dalian University of Technology, Dalian, 116024, P.R.
In the design system a kind of method called template technique is developed to realize the conversion of a gear part from 3-D geometric entity to corresponding 2-D standard engineering drawing and the marking of necessary design technical requests and parameters on the engineering drawing automatically, which offsets the lack that current three-dimensional CAD software can not automatically create standard two-dimensional CAD engineering drawing.
Even though some commercial software provide 3-D geometric models of involute gears, their involute curves of gear teeth are approximately substituted by folded lines and there are no function of creating standard two-dimensional (2-D) gear engineering drawings automatically in these software [4].
Development of Template Technique for 2-D Drawing 2-D standard engineering drawing of a part, which includes standard drawing frame and some necessary technical requests, can't be automatically created from its 3-D entity directly in current 3-D CAD software.
Furthermore a kind of method called template technique is developed to realize the conversion of a gear part from 3-D geometric entity to corresponding 2-D standard engineering drawing and marking of the technical condition and design parameters on the engineering drawing automatically, which offsets the lack that current three-dimensional CAD software can not automatically create standard two-dimensional CAD engineering drawing.
In the design system a kind of method called template technique is developed to realize the conversion of a gear part from 3-D geometric entity to corresponding 2-D standard engineering drawing and the marking of necessary design technical requests and parameters on the engineering drawing automatically, which offsets the lack that current three-dimensional CAD software can not automatically create standard two-dimensional CAD engineering drawing.
Even though some commercial software provide 3-D geometric models of involute gears, their involute curves of gear teeth are approximately substituted by folded lines and there are no function of creating standard two-dimensional (2-D) gear engineering drawings automatically in these software [4].
Development of Template Technique for 2-D Drawing 2-D standard engineering drawing of a part, which includes standard drawing frame and some necessary technical requests, can't be automatically created from its 3-D entity directly in current 3-D CAD software.
Furthermore a kind of method called template technique is developed to realize the conversion of a gear part from 3-D geometric entity to corresponding 2-D standard engineering drawing and marking of the technical condition and design parameters on the engineering drawing automatically, which offsets the lack that current three-dimensional CAD software can not automatically create standard two-dimensional CAD engineering drawing.
Online since: December 2004
Authors: Shao Bo Chen, Qiu Sheng Yan, Zi Qiang Zhang, Zhi Dan Zheng
In order to estimate error of the method, emulated calculating is carried out, namely the course of
curve being obtained by reverse engineering is simulated in this paper.
The results show: if space between measure points is about 0.1mm in curve being obtained by reverse engineering, then, the most departure of smoothing results from original curve is 0.552μm for the stated example.
Measure course of curve being obtained by reverse engineering is simulated, points on the curve are taken out as measured points; then smoothing is carried out by ADCAIM and the results are compared with original curve.
The emulated calculating steps are, firstly the measure course of curve being obtained by reverse engineering is simulated, points on the curve are taken as measured points; then smoothing is carried out by ADCAIM using above computer assistant programming software.
Chen, et al: Key Engineering Materials Vol. 259-260 (2004), p. 63 [3] Z.Q.
The results show: if space between measure points is about 0.1mm in curve being obtained by reverse engineering, then, the most departure of smoothing results from original curve is 0.552μm for the stated example.
Measure course of curve being obtained by reverse engineering is simulated, points on the curve are taken out as measured points; then smoothing is carried out by ADCAIM and the results are compared with original curve.
The emulated calculating steps are, firstly the measure course of curve being obtained by reverse engineering is simulated, points on the curve are taken as measured points; then smoothing is carried out by ADCAIM using above computer assistant programming software.
Chen, et al: Key Engineering Materials Vol. 259-260 (2004), p. 63 [3] Z.Q.