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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: December 2004
Authors: Zhenya Wang, Jin Sheng Zhang, Zeng Wen Liu, C. Zhang, X.H. Ren, F.Y. Yu
Liu2,d
1School of Mechanical Engineering, Shandong University, China 250061
2Stone Engineering Center, Shandong Province, China 250061
awzhi@sdu.edu.cn,
bzhangjs@sdu.edu.cn,
czhangchao210@hotmail.com,
dliuzw@sdu.edu.cn
Keywords: Module partition, Function analysis, Special-shaped stones, Machining equipment
Abstract.
Someone divides functional modules [5] according to the analysis Materials Science Forum Vols. *** 807 and synthesis of function principle.
Advances in Materials Manufacturing Science and Technology 810 Conclusions Module partition is the key technique of the fast design and manufacture of equipment.
Gao: Journal of Mechanical Engineering Vol. 39 (2003), p. 16 (in chinese) [6] R.B.
Shen: Industrial Engineering and Management Vol. 2 (2000), p. 45 (in chinese).
Someone divides functional modules [5] according to the analysis Materials Science Forum Vols. *** 807 and synthesis of function principle.
Advances in Materials Manufacturing Science and Technology 810 Conclusions Module partition is the key technique of the fast design and manufacture of equipment.
Gao: Journal of Mechanical Engineering Vol. 39 (2003), p. 16 (in chinese) [6] R.B.
Shen: Industrial Engineering and Management Vol. 2 (2000), p. 45 (in chinese).
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: May 2017
Authors: Tomohisa Kato, Hitoshi Habuka, Yoshinao Takahashi, Shogo Okuyama, Ken Nakagomi
A Method to Adjust Polycrystalline Silicon Carbide Etching Rate Profile by Chlorine Trifluoride Gas
Ken Nakagomi1, a, Shogo Okuyama1,a , Hitoshi Habuka1,a*,
Yoshinao Takahashi2,b and Tomohisa Kato3,c
1Department of Chemical and Energy Engineering, Yokohama National University, Japan
2Kanto Denka Kogyo Co., Ltd, Kanda Awaji-cho Chiyoda Tokyo 101-0063 Japan
3National Institute of Advanced Industrial Science and Technology, Japan
ahabuka-hitoshi-ng@ynu.ac.jpl, bYoshinao.Takahashi@kantodenka.co.jp ct-kato@aist.go.jp
Keywords: Silicon carbide dry etcher, chlorine trifluoride gas, etching rate profile
Abstract.
Forum, 778-780 (2014) 738-741
Forum, 821-823 (2015) 553-556.
Forum, 778-780 (2014) 738-741
Forum, 821-823 (2015) 553-556.
Online since: July 2006
Authors: Yu.V. Milman
Al-Zn-Mg-Cu-Sc alloys
Al-Zn-Mg-Cu alloys, which have the higher strength characteristics among wrought Al alloys, are
the basic structural materials for aerospace engineering.
Science Forum 331-337 (2000) 1107-1112
Katsube: Mater.Science Forum 331-337 (2000) 1031-1036
Science Forum 331-337 (2000) 1249-1254
Chapor: International Conference «Advanced Materials» Symposium A: Engineering of Composites: Investigations, Technologies and Perspectives Kiev (1999) 212
Science Forum 331-337 (2000) 1107-1112
Katsube: Mater.Science Forum 331-337 (2000) 1031-1036
Science Forum 331-337 (2000) 1249-1254
Chapor: International Conference «Advanced Materials» Symposium A: Engineering of Composites: Investigations, Technologies and Perspectives Kiev (1999) 212
Online since: October 2007
Preface
This volume is a collection of papers presented at the 12h International Autumn Meeting «Gettering and
Defect Engineering in Semiconductor Technology - GADEST 2007" held from 14th to 19th October 2007
in Italy at the EMFCSC (Ettore Majorana Foundation and Centre for Scientific Culture), Erice, Sicily.
In turn, GADEST Conference is a traditional forum addressed at the interaction among scientists and engineers engaged in the field of semiconductor defect physics, materials science and technology.
At that time, the main purpose was to hold an informal gathering between eastern and western researchers in the field of defect engineering and gettering, who where virtually separated by the Iron Curtain.
This will ensure a lively exchange of opinions and may lead to a better understanding of the complex aspects of defect engineering which over the years was starting to shift from art into real science.
The symposium and its proceeding volume are organized in 9 sessions: Crystalline silicon for solar cells: single crystals, multi-crystalline Si, ribbons, Si thin films on substrates Silicon-based materials and advanced semiconductor materials (strained Si, SOI, SiGe, SiC, Ge) Impurities (oxygen, carbon, nitrogen, fluorine, metals) in Si Modeling/simulation of defects in Si/semiconductors Defect engineering in microelectronics and photovoltaics Gettering and passivation techniques Defect and impurity characterization (physical and electrical) Si-based Nanostructures (nanocrystals, nanowires, nanodevices) Silicon-based heterostructures and optoelectronics A meeting like this can never be organized without the help and support of a skilled team.
In turn, GADEST Conference is a traditional forum addressed at the interaction among scientists and engineers engaged in the field of semiconductor defect physics, materials science and technology.
At that time, the main purpose was to hold an informal gathering between eastern and western researchers in the field of defect engineering and gettering, who where virtually separated by the Iron Curtain.
This will ensure a lively exchange of opinions and may lead to a better understanding of the complex aspects of defect engineering which over the years was starting to shift from art into real science.
The symposium and its proceeding volume are organized in 9 sessions: Crystalline silicon for solar cells: single crystals, multi-crystalline Si, ribbons, Si thin films on substrates Silicon-based materials and advanced semiconductor materials (strained Si, SOI, SiGe, SiC, Ge) Impurities (oxygen, carbon, nitrogen, fluorine, metals) in Si Modeling/simulation of defects in Si/semiconductors Defect engineering in microelectronics and photovoltaics Gettering and passivation techniques Defect and impurity characterization (physical and electrical) Si-based Nanostructures (nanocrystals, nanowires, nanodevices) Silicon-based heterostructures and optoelectronics A meeting like this can never be organized without the help and support of a skilled team.
Online since: July 2016
Preface
It is a great honor for me to publish this Special Issue of Advanced Materials Research,
dedicated to the International Conference on Sustainable Materials Science and Technology
(SMST15), held in Paris (France), from 15th to 17th July 2015.
I would also like to express my gratitude to the Editors of Advanced Materials Research for this Special Issue.
Chemical Engineering Department University of Extremadura Spain Macías García, Antonio PhD.
Chemical Engineering Department ISEP - School of Engineering, Polytechnic Institute of Porto Portugal Vahid Jabbari Chemistry Department The University of Texas at El Paso (UTEP) USA Vieira Ferreira, Luís PhD.
Chemical Engineering Department Lisbon Technical University Portugal Sponsors
I would also like to express my gratitude to the Editors of Advanced Materials Research for this Special Issue.
Chemical Engineering Department University of Extremadura Spain Macías García, Antonio PhD.
Chemical Engineering Department ISEP - School of Engineering, Polytechnic Institute of Porto Portugal Vahid Jabbari Chemistry Department The University of Texas at El Paso (UTEP) USA Vieira Ferreira, Luís PhD.
Chemical Engineering Department Lisbon Technical University Portugal Sponsors
Online since: June 2015
Authors: Mark J. Loboda, Stephan G. Mueller, Huan Huan Wang, Fang Zhen Wu, Edward Sanchez, Gil Yong Chung, Darren Hansen, Kim Kisslinger, Li Hua Zhang, Dong Su, Eric Stach, Yu Yang, Balaji Raghothamachar, Jian Qiu Guo, Michael Dudley
Loboda2, Lihua Zhang3,
Dong Su3, Kim Kisslinger3 and Eric Stach3
1Dept. of Materials Science and Engineering, Stony Brook University, Stony Brook, NY, 11790, USA
2Dow Corning Compound Semiconductor Solutions, Midland, MI, 48686, USA
3Center for Functional Nanomaterials, Brookhaven National Laboratory, Upton, NY, 11973, USA
amichael.dudley@stonybrook.edu
Keywords: stacking faults, polytype, macrostep, HRTEM, x-ray topography
Abstract.
DE-AC02-98CH10886) and Beamline 1-BM at the Advanced Photon Source, Argonne National Laboratory.
Forum, vols. 679-680, pp. 269-272, (2011)
Forum, vols. 717-720, pp. 343-346, (2012)
Forum, vols. 740-742, pp. 217-220, (2013) [22] N.
DE-AC02-98CH10886) and Beamline 1-BM at the Advanced Photon Source, Argonne National Laboratory.
Forum, vols. 679-680, pp. 269-272, (2011)
Forum, vols. 717-720, pp. 343-346, (2012)
Forum, vols. 740-742, pp. 217-220, (2013) [22] N.
Online since: November 2010
Authors: Guo Sheng Gai, Yu Fen Yang, Zhi Xian Jin, Cheng Bao Wu
Key Laboratory of Advanced Materials of Education Ministry, Powder R & D, Dept. of Materials,
Tsinghua University, Beijing, 100084, China, gaigs@tsinghua.edu.cn , www.chinapowder.cn
2.
More processing machinery and more advanced technology are needed to meet the standards equal or close to those in developed countries.
With the technological background of mineral processing, micro-fracture of rock, two phase flow in the centrifugal field; some machineries have been designed and some engineering projects have been completed in mineral fine grinding.
There are no collections of useful data for the machine choice as in chemical engineering.
Having the biggest population in the world, developing powder technology and surpassing advanced countries are the key technical field facing to all Chinese specialists and researchers and enterprises to make China modernized as soon as possible.
More processing machinery and more advanced technology are needed to meet the standards equal or close to those in developed countries.
With the technological background of mineral processing, micro-fracture of rock, two phase flow in the centrifugal field; some machineries have been designed and some engineering projects have been completed in mineral fine grinding.
There are no collections of useful data for the machine choice as in chemical engineering.
Having the biggest population in the world, developing powder technology and surpassing advanced countries are the key technical field facing to all Chinese specialists and researchers and enterprises to make China modernized as soon as possible.
Online since: October 2023
Authors: Aadil Ejbouh, Mouhsine Galai, Adil Ech-chebab, Sara Hassi, Hanane Benqlilou, Mohamed Ebn Touhami
Durability Performance of Reinforced Concrete-Based Fly Ash Exposed to Combined Chloride-Sulfate Attack
A.Ejbouh1,a,*, A.Ech-chebab1,b, S.Hassi1,2,c, M.Galai1,d, H.Benqlilou3,e,
M.Ebn Touhami1,f
1Ibn Tofail University, Advanced Materials and Process Engineering Laboratory, Kenitra, Morocco
2Department of Civil Engineering, Fuzhou University, 2 Xue Yuan Road University Town, Fuzhou, Fujian 350108 P.
Jiao, “Influence of fly ash as cement replacement on chloride penetration and frost resistance of recycled concrete,” in Advanced Materials Research, Trans Tech Publ, 2011, pp. 1031–1037
Harish, “Performance study of self-compacting concrete by fly ash and silica fume for sustainability in building construction,” in Key Engineering Materials, Trans Tech Publ, 2016, pp. 74–81
Sounthararajan, “Empirical prediction models for strength gain properties of fly ash based concrete subjected to accelerated curing,” in Advanced Materials Research, Trans Tech Publ, 2018, pp. 73–90
[14] C. van Nguyen, “Effect of Locally Sourced Fly Ash and GGBS on the Compressive Strength and Chloride Resistance of Concrete,” in Key Engineering Materials, Trans Tech Publ, 2022, pp. 123–131
Jiao, “Influence of fly ash as cement replacement on chloride penetration and frost resistance of recycled concrete,” in Advanced Materials Research, Trans Tech Publ, 2011, pp. 1031–1037
Harish, “Performance study of self-compacting concrete by fly ash and silica fume for sustainability in building construction,” in Key Engineering Materials, Trans Tech Publ, 2016, pp. 74–81
Sounthararajan, “Empirical prediction models for strength gain properties of fly ash based concrete subjected to accelerated curing,” in Advanced Materials Research, Trans Tech Publ, 2018, pp. 73–90
[14] C. van Nguyen, “Effect of Locally Sourced Fly Ash and GGBS on the Compressive Strength and Chloride Resistance of Concrete,” in Key Engineering Materials, Trans Tech Publ, 2022, pp. 123–131