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Online since: June 2012
The ISEPD2012 provided a forum where
researchers were able to present the most advanced and new scientific findings and technological
developments in the filed of eco-materials processing and design.
Editors: Jing Sun, Lian Gao, Hyung Sun Kim, Jian Feng Yang, Tohru Sekino and Soo Wohn Lee Organizing Committee Symposium Chairs Jing Sun, Shanghai Institute of Ceramics, China Lian Gao, Shanghai Jiao Tong University, China Huarui Xu, Guilin University of Electronic Technology, China General Chairs Koichi Niihara, Nagaoka University of Technology, Japan Kozo Ishizaki, Nagaoka University of Technology, Japan Soo Wohn Lee, Sun Moon University, Korea Yubao Li, Sichuan University, China Honorary Chairs Hongjie Luo, Shanghai Institute of Ceramics, China Huaiying Zhou, Guilin University of Electronic Technology, China Academic Committee Dongyan Ding, Shanghai Jiao Tong University, China Li Fu, Northwest Polytechnic University, China Qing Huang, Ningbo Institute of Materials Technology & Engineering Academy of Science, China Yangqiao Liu, Shanghai Institute of Ceramics, China Feng Pan, Tsinghua University, China Guanjun Qiao, Xi`an Jiatong
University, China Hongzhi Wang, Donghua University, China Yi Zeng, Shanghai Institute of Ceramics, China Qinghong Zhang, Donghua University, China Xuebin Zheng, Shanghai Institute of Ceramics, China Yoshihiro Hirata, Kagoshima University, Japan Masaya Matsuoka, Osaka Prefecture University, Japan Tadachika Nakayama, Nagaoka University of Technology, Japan Takamasa Onoki, Osaka Prefecture University, Japan Tohru Sekino, IMRAM, Tohoku University, Japan Masato Takeuchi, Osaka Prefecture University, Japan Eiji Tani, National Institute of Advanced Industrial Science and Technology, Japan Takanori Watari, Saga University, Japan Shu Yin, Tohoku University, Japan HyungSun Kim, Inha University, Korea KyungNam Kim, Gangwon University, Korea WonYong Kim, KITECH, Korea YoungHee Kim, KICET, Korea HyungMee Lim, KICET, Korea SangYup Park, Kangnung University, Korea Nagahiro Saito, Nagoya University, Japan KwangBo Shim, Hanyang University, Korea Publication
Torres-Martinaz, Univeridad Autonoma De Nuevro Leon, Mexico Yasuo Uchiyama, Nagasaki University, Japan Xianhong Wang, ChangChun Institute of Applied Chemistry, China Huarui Xu, Guilin University of Electronic Technology, China Jianfeng Yang, Xi`an Jiaotong University, China Jun Yang, Xi`an University of Architecture and Technology, China Di Zhang, Shanghai Jiao Tong University, China Jinlong Zhang, East China University of Science and Technology, China Shaoxiong Zhou, Advanced Technology & Materials Co.
Editors: Jing Sun, Lian Gao, Hyung Sun Kim, Jian Feng Yang, Tohru Sekino and Soo Wohn Lee Organizing Committee Symposium Chairs Jing Sun, Shanghai Institute of Ceramics, China Lian Gao, Shanghai Jiao Tong University, China Huarui Xu, Guilin University of Electronic Technology, China General Chairs Koichi Niihara, Nagaoka University of Technology, Japan Kozo Ishizaki, Nagaoka University of Technology, Japan Soo Wohn Lee, Sun Moon University, Korea Yubao Li, Sichuan University, China Honorary Chairs Hongjie Luo, Shanghai Institute of Ceramics, China Huaiying Zhou, Guilin University of Electronic Technology, China Academic Committee Dongyan Ding, Shanghai Jiao Tong University, China Li Fu, Northwest Polytechnic University, China Qing Huang, Ningbo Institute of Materials Technology & Engineering Academy of Science, China Yangqiao Liu, Shanghai Institute of Ceramics, China Feng Pan, Tsinghua University, China Guanjun Qiao, Xi`an Jiatong
University, China Hongzhi Wang, Donghua University, China Yi Zeng, Shanghai Institute of Ceramics, China Qinghong Zhang, Donghua University, China Xuebin Zheng, Shanghai Institute of Ceramics, China Yoshihiro Hirata, Kagoshima University, Japan Masaya Matsuoka, Osaka Prefecture University, Japan Tadachika Nakayama, Nagaoka University of Technology, Japan Takamasa Onoki, Osaka Prefecture University, Japan Tohru Sekino, IMRAM, Tohoku University, Japan Masato Takeuchi, Osaka Prefecture University, Japan Eiji Tani, National Institute of Advanced Industrial Science and Technology, Japan Takanori Watari, Saga University, Japan Shu Yin, Tohoku University, Japan HyungSun Kim, Inha University, Korea KyungNam Kim, Gangwon University, Korea WonYong Kim, KITECH, Korea YoungHee Kim, KICET, Korea HyungMee Lim, KICET, Korea SangYup Park, Kangnung University, Korea Nagahiro Saito, Nagoya University, Japan KwangBo Shim, Hanyang University, Korea Publication
Torres-Martinaz, Univeridad Autonoma De Nuevro Leon, Mexico Yasuo Uchiyama, Nagasaki University, Japan Xianhong Wang, ChangChun Institute of Applied Chemistry, China Huarui Xu, Guilin University of Electronic Technology, China Jianfeng Yang, Xi`an Jiaotong University, China Jun Yang, Xi`an University of Architecture and Technology, China Di Zhang, Shanghai Jiao Tong University, China Jinlong Zhang, East China University of Science and Technology, China Shaoxiong Zhou, Advanced Technology & Materials Co.
Online since: January 2004
Authors: Ryuichiro Oshima, Fuminobu Hori, Satoko Nakagawa
Study on Grown-in Defects in CZ-Si by Positron Annihilation
Satoko NAKAGAWA1, Fuminobu HORI
2, and Ryuichiro OSHIMA2
1
Department of Metallurgy & Material Science, Graduate School of Engineering,
Osaka Prefecture University, 1-1 Gakuen-cho, Sakai,Osaka 599-8531, Japan,
Email: fr101@mtl.osakafu-u.ac.jp
2
Research Institute for Advanced Science and Technology, Osaka Prefecture University
1-2 Gakuen-cho, Sakai,Osaka 599-8570, Japan, Email: horif@riast.osakafu-u.ac.jp
2
Research Institute for Advanced Science and Technology, Osaka Prefecture University
1-2 Gakuen-cho, Sakai,Osaka 599-8570, Japan, Email: oshima-r@mbh.nifty.com
Keywords: positron annihilation, coincidence doppler broadening measurement, silicon, oxygen
induced stacking fault
Abstract.
Lett. 30 (1077), p.175 [7] R.Oshima & F.Hori, Advanced Science and Technology of Silicon Materials, Proc. of the 2nd Int.
Forum Vol.363-365 (2001), p.67 0.9 0.95 1 1.05 0 0.005 0.01 0.015 0.02 0.025 0.03 15mm 33mm 59mm ratio to Fz-Si electron momentum, pL [m0c] Fig.2 CDB ratio spectra for as-grown CZ-Si in each position on the same sample. 0.9 0.95 1 1.05 0 0.005 0.01 0.015 0.02 0.025 0.03 64h15mm 64h33mm 64h59mm ratio to Fz-Si electron momentum, pL [m0c] Fig.3 CDB ratio spectra for CZ-Si after 64 hour heat treatment
Lett. 30 (1077), p.175 [7] R.Oshima & F.Hori, Advanced Science and Technology of Silicon Materials, Proc. of the 2nd Int.
Forum Vol.363-365 (2001), p.67 0.9 0.95 1 1.05 0 0.005 0.01 0.015 0.02 0.025 0.03 15mm 33mm 59mm ratio to Fz-Si electron momentum, pL [m0c] Fig.2 CDB ratio spectra for as-grown CZ-Si in each position on the same sample. 0.9 0.95 1 1.05 0 0.005 0.01 0.015 0.02 0.025 0.03 64h15mm 64h33mm 64h59mm ratio to Fz-Si electron momentum, pL [m0c] Fig.3 CDB ratio spectra for CZ-Si after 64 hour heat treatment
Online since: September 2016
Authors: Mohannad Naeem Houshi
A Comprehensive Review on Magnetic Abrasive Finishing Process
Mohannad Naeem Houshi 1*
1School of Advanced Manufacturing and Mechanical Engineering
University of South Australia, Mawson Lakes, 5095
South Australia, Australia
Corresponding Author:*alymy025@mymail.unisa.edu.au
Keywords: Advanced finishing processes; Magnetic abrasive finishing, Surface roughness, Material removal rate.
These techniques have a good capability to operate on advanced engineering materials which cannot be cut by traditional machining processes [3, 38].
Furthermore, conventional techniques have difficulty in finishing advanced engineering materials such as silicon nitride, silicon carbide and aluminum oxide, etc. with super-finishing, accuracy and less surface defects because of their rigid tool which affects advanced engineering properties for these materials [50].
They have intrinsic properties such as external control on cutting forces, flexibility to finish complex shapes and capability to machine advanced engineering materials.
Engineering Manufacture, vol.225, pp.853-864
These techniques have a good capability to operate on advanced engineering materials which cannot be cut by traditional machining processes [3, 38].
Furthermore, conventional techniques have difficulty in finishing advanced engineering materials such as silicon nitride, silicon carbide and aluminum oxide, etc. with super-finishing, accuracy and less surface defects because of their rigid tool which affects advanced engineering properties for these materials [50].
They have intrinsic properties such as external control on cutting forces, flexibility to finish complex shapes and capability to machine advanced engineering materials.
Engineering Manufacture, vol.225, pp.853-864
Online since: April 2015
Authors: Andrei Victor Sandhu, Alin Cazac, Costică Bejinariu, Ofelia Corbu, Petru Lazăr, Ioan Gabriel Sandu
Enhancing properties of reinforcing steel by chemical phosphatation
Costică BEJINARIU1a, Petru LAZĂR1b, Andrei Victor SANDU1,2,c ,
Alin Marian CAZAC1d, Ioan Gabriel SANDU1,3e, Ofelia CORBU4f
1Gheorghe Asachi Technical University of Iasi, Faculty of Materials Science and Engineering, Blvd.
Mangeron 41, 700050, Iasi, Romania 2 Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia 3Romanian Inventors Forum, Str.
Ricketts, Standard Handbook for Civil Engineers, Fourth Edition, McGraw-Hill Book Company, 1995
Preparation and structural and chemical characterization, Journal of Optoelectronics and Advanced Materials, 14 (2012) 699-703
Evaluation of corrosion resistance, Journal of Optoelectronics and Advanced Materials, 14, 7-8, (2012) 704-708
Mangeron 41, 700050, Iasi, Romania 2 Center of Excellence Geopolymer & Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia 3Romanian Inventors Forum, Str.
Ricketts, Standard Handbook for Civil Engineers, Fourth Edition, McGraw-Hill Book Company, 1995
Preparation and structural and chemical characterization, Journal of Optoelectronics and Advanced Materials, 14 (2012) 699-703
Evaluation of corrosion resistance, Journal of Optoelectronics and Advanced Materials, 14, 7-8, (2012) 704-708
Online since: July 2011
Authors: Joaquín Barreiro, Ana Isabel Fernández Abia, Susana Martínez-Pellitero
Fernández-Abia1, c
1Manufacturing Processes Engineering.
School of Industrial Engineering and Computer Science.
The labor market in the most advanced societies, especially in Europe and United States, imposes a series of requirements for the incorporation of university students.
Application context of the study The courses in which this study is focused are linked to manufacturing processes engineering and they belong to bachelors and masters of Industrial Engineering and Aeronautical Engineering.
Courses in the area of manufacturing engineering considered in this study.
School of Industrial Engineering and Computer Science.
The labor market in the most advanced societies, especially in Europe and United States, imposes a series of requirements for the incorporation of university students.
Application context of the study The courses in which this study is focused are linked to manufacturing processes engineering and they belong to bachelors and masters of Industrial Engineering and Aeronautical Engineering.
Courses in the area of manufacturing engineering considered in this study.
Online since: January 2012
Authors: A. Peigney, Ch. Laurent, Cathy Elissalde, Christophe Drouet, Philippe Miele, Claude Estournès, D. Grossin, M. Maglione, Djar Oquab, Daniel Monceau, Mathieu Boidot, Serge Selezneff, R. Chaim, U Chan Chung, F. Roulland, J. Gurt-Santanach, G. Chevallier, A. Weibel
Schweitzer, F-33608 Pessac Cedex, France
4 Department of Materials Engineering, Technion – Israel Institute of Technology, Haifa 32000, Israel
5 LMI, UMR CNRS 5615, Université Claude Bernard-Lyon 1, 43 bvd du 11 novembre 1918, 69622 Villeurbanne Cedex, France
6 Université de Toulouse, UMR CNRS-UPS-INP 5085, CIRIMAT, Université Paul-Sabatier, Bât. 2R1, 118 route de Narbonne, 31062 Toulouse cedex 9, France
Kewords: Nanomaterials, Spark Plasma Sintering, Mechanisms, Ceramics, Coatings
Abstract In the field of advanced ceramics, Spark Plasma Sintering (SPS) is known to be very efficient for superfast and full densification of ceramic nanopowders.
Forum 308–311, 1999, 83
Estournès, Materials Science and Engineering: A, 527(6), 2010, 1577
Monceau, Advanced Engineering Materials 9(5), 2007, 413
Estournès, Materials Science Forum Vols 595-598 2008, 143
Forum 308–311, 1999, 83
Estournès, Materials Science and Engineering: A, 527(6), 2010, 1577
Monceau, Advanced Engineering Materials 9(5), 2007, 413
Estournès, Materials Science Forum Vols 595-598 2008, 143
Online since: February 2014
Authors: Ya Kun Shi
BIM technology used more widely in construction industry in developed countries in Europe and the United States, the integration of building information modeling (BIM) in the domestic large-scale propulsion was still difficult, and further the trend of widening the gap with foreign advanced level.
Advanced architectural design and real estate companies have been founded in BIM technology group, such as the Institute of Architectural Design, Tsinghua University, China Architecture Design Institute, China Academy of Building Research, China State Construction International Construction Co.
Advanced architectural design and real estate companies have been founded in BIM technology group, such as the Institute of Architectural Design, Tsinghua University, China Architecture Design Institute, China Academy of Building Research, China State Construction International Construction Co.
When the owners of the project quality requirements are not clear, resulting in the engineering change more difficult to effectively to control the quality.
BIM technology, computer simulation of engineering the construction process, project managers are easier to detect logic errors is difficult to find in the two-dimensional network planning processes to optimize the schedule.
Advanced architectural design and real estate companies have been founded in BIM technology group, such as the Institute of Architectural Design, Tsinghua University, China Architecture Design Institute, China Academy of Building Research, China State Construction International Construction Co.
Advanced architectural design and real estate companies have been founded in BIM technology group, such as the Institute of Architectural Design, Tsinghua University, China Architecture Design Institute, China Academy of Building Research, China State Construction International Construction Co.
When the owners of the project quality requirements are not clear, resulting in the engineering change more difficult to effectively to control the quality.
BIM technology, computer simulation of engineering the construction process, project managers are easier to detect logic errors is difficult to find in the two-dimensional network planning processes to optimize the schedule.
Online since: March 2015
Preface
This volume contains papers contributed to the 2015 5th International
Conference on Advances in Materials and Manufacturing (ICAMMP 2014) held
on 20-21 December, 2014 in Fuzhou, China.
The International Conference on Advances in Materials and Manufacturing is the premier forum for the presentation of new advances and research results in the field of materials and manufacturing processes.
This conference series brings together leading researchers, engineers, and scientists in the materials and processes field through the world.
All papers published in this volume of Advanced Materials Research have been peer reviewed through processes administrated by the organizing committee.
Studies presented in this book cover these topics: Composites; Nano-Materials; Metal Alloys; Building Materials; Biomaterials Chemical Materials; Material Properties, Performance, Testing, Characterization and Applications; Surface Engineering/Coating Technology Materials Processing Technology.
The International Conference on Advances in Materials and Manufacturing is the premier forum for the presentation of new advances and research results in the field of materials and manufacturing processes.
This conference series brings together leading researchers, engineers, and scientists in the materials and processes field through the world.
All papers published in this volume of Advanced Materials Research have been peer reviewed through processes administrated by the organizing committee.
Studies presented in this book cover these topics: Composites; Nano-Materials; Metal Alloys; Building Materials; Biomaterials Chemical Materials; Material Properties, Performance, Testing, Characterization and Applications; Surface Engineering/Coating Technology Materials Processing Technology.
Online since: January 2021
Authors: S.V. Akhonin, V.Yu. Belous, V.A. Berezos, R.V. Selin
Chatterjee, Engineering the next-generation tin containing titanium alloys with high strength and low modulus for orthopedic applications, J.
Khorev, Theory and practice of development of titanium alloys for advanced structures, Tekhnol.
Yushchenko, Vacuum diffusion welding of intermetallic alloy ɣ-TiAl with high-temperature alloy EI437B through nanolayered interlayers through nanolayered interlayers, 2019 IEEE 2nd Ukraine Conference on Electrical and Computer Engineering (UKRCON), Lviv, Ukraine, 2019, pp. 542-546. https://doi.org/10.1109/UKRCON.2019.8879918 [39] D.P.
Khorev, High-strength titanium alloy VT23 and its applications in advanced welded and brazed structures, Weld.
Freeman, New welding techniques for aerospace engineering, in: Welding and Joining of Aerospace Materials, Woodhead Publ., 2012, pp. 3-24. https://doi.org/10.1533/9780857095169.1.1 [62] J.
Khorev, Theory and practice of development of titanium alloys for advanced structures, Tekhnol.
Yushchenko, Vacuum diffusion welding of intermetallic alloy ɣ-TiAl with high-temperature alloy EI437B through nanolayered interlayers through nanolayered interlayers, 2019 IEEE 2nd Ukraine Conference on Electrical and Computer Engineering (UKRCON), Lviv, Ukraine, 2019, pp. 542-546. https://doi.org/10.1109/UKRCON.2019.8879918 [39] D.P.
Khorev, High-strength titanium alloy VT23 and its applications in advanced welded and brazed structures, Weld.
Freeman, New welding techniques for aerospace engineering, in: Welding and Joining of Aerospace Materials, Woodhead Publ., 2012, pp. 3-24. https://doi.org/10.1533/9780857095169.1.1 [62] J.
Online since: August 2014
Authors: Azlan Abdul Aziz, Sodipo Bashiru Kayode
Mohammad, Advanced Drug Delivery Reviews 63 (2011) 789-808
Sodipo, Materials Science Forum 756 (2013) 74-79
Li, Colloids and Surfaces A: Physicochemical and Engineering Aspects 302 (2007) 366-370
Azlan, Advanced Materials Research (In press)
Zhou, Chemical Engineering Journal 226 (2013) 30-38
Sodipo, Materials Science Forum 756 (2013) 74-79
Li, Colloids and Surfaces A: Physicochemical and Engineering Aspects 302 (2007) 366-370
Azlan, Advanced Materials Research (In press)
Zhou, Chemical Engineering Journal 226 (2013) 30-38