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Online since: September 2024
Authors: Sergii Vavreniuk, Oleksandr Holii, Viktoriya Pasternak, Artem Ruban
Mechanics and Mechanical Engineering. 22 (2018) 727–737
Journal of Marine Science and Engineering. 9 (2021) 1–18
Key Engineering Materials. 927 (2022) 77–86
Open Engineering. 12 (2022) 477–484
Key Engineering Materials. 954 (2023) 157–165.
Journal of Marine Science and Engineering. 9 (2021) 1–18
Key Engineering Materials. 927 (2022) 77–86
Open Engineering. 12 (2022) 477–484
Key Engineering Materials. 954 (2023) 157–165.
Online since: July 2010
Preface
International Conference on Structural Analysis of Advanced Materials (ICSAAM - 2009)
The increased use of advanced materials in high efficiency structures - electronic devices, medical equipment,
planes and vehicles - requires improved reliability, resistance to degradation, failure and life-span forecasts
under a wide variety of loading conditions.
The development of materials with advanced structural properties is becoming a key factor in industrial and technological progress.
The aim of the conference is to provide a forum for engineers, and researchers, scientists and industrial experts, to present their work and discuss the present situation with regard to advanced and associated technologies, experimental techniques, numerical analyses and recent developments in the field of advanced materials.
ICSAAM 2009 will include conferences by internationally renowned researchers as well as oral and poster presentations covering aspects of research and advanced material technology.
Professor Moussa Karama Chairman ICSAAM 2009 http://www.enit.fr/ICSAAM2009/index.html Guest Editor Special issue Advanced Materials Research
The development of materials with advanced structural properties is becoming a key factor in industrial and technological progress.
The aim of the conference is to provide a forum for engineers, and researchers, scientists and industrial experts, to present their work and discuss the present situation with regard to advanced and associated technologies, experimental techniques, numerical analyses and recent developments in the field of advanced materials.
ICSAAM 2009 will include conferences by internationally renowned researchers as well as oral and poster presentations covering aspects of research and advanced material technology.
Professor Moussa Karama Chairman ICSAAM 2009 http://www.enit.fr/ICSAAM2009/index.html Guest Editor Special issue Advanced Materials Research
Online since: May 2016
Authors: Jeffrey Quast, Stephan Mueller, Darren Hansen, Yu Yang, Ian Manning, Edward Sanchez, Michael Dudley, Jian Qiu Guo, Balaji Raghothamachar, Clinton Whiteley
DE-AC02-76CH00016, and at the Advanced Photon Source (Beamline 1-BM), a U.S.
Neudeck, The VLSI Handbook (The Electrical Engineering Handbook Series), ed.
Forum 338 – 342, (2000) p. 1161
Forum.
Forum.
Neudeck, The VLSI Handbook (The Electrical Engineering Handbook Series), ed.
Forum 338 – 342, (2000) p. 1161
Forum.
Forum.
Online since: December 2024
Authors: Roman Purdenko, Roman Maiboroda, Yurii Otrosh, Nina Rashkevich
Structural Engineering and Mechanics, (2016)
Key engineering materials, 723 (2017) 795–800
Soil Dynamics and Earthquake Engineering, 39 (2012) 113–127
Procedia Engineering, 117 (2015) 419–430
Key Engineering Materials. 952 (2023) 121-129.
Key engineering materials, 723 (2017) 795–800
Soil Dynamics and Earthquake Engineering, 39 (2012) 113–127
Procedia Engineering, 117 (2015) 419–430
Key Engineering Materials. 952 (2023) 121-129.
Online since: June 2012
Authors: Xian Wen Miao, Yuan Qiang Gu, Ke Ren Zhang
We introduce the advanced Japanese "5S" management model in the on-site management of the engineering training.
We let students to listen to the engineering story, look at the actual engineering and engineering content, in order to stimulate interest and curiosity to study engineering.
Therefore, creating the new mechanism like joint training between universities and enterprises, let students learn advanced technology and corporate culture, and participate in technical innovation and engineering development by deep cooperation between university and enterprise, in order to improve the sense of social responsibility of students serving our country and people, also improve the innovative spirit and problem-solving ability.
During the teaching, advanced teaching philosophy, teaching methods and assessment methods were introduced; also cultivation of students' practical skills and the ability of analyzing and solving problems was focused on.
Fujian Forum (Social Science Education), 2009. (2): 196-197 [9] Supra [3]
We let students to listen to the engineering story, look at the actual engineering and engineering content, in order to stimulate interest and curiosity to study engineering.
Therefore, creating the new mechanism like joint training between universities and enterprises, let students learn advanced technology and corporate culture, and participate in technical innovation and engineering development by deep cooperation between university and enterprise, in order to improve the sense of social responsibility of students serving our country and people, also improve the innovative spirit and problem-solving ability.
During the teaching, advanced teaching philosophy, teaching methods and assessment methods were introduced; also cultivation of students' practical skills and the ability of analyzing and solving problems was focused on.
Fujian Forum (Social Science Education), 2009. (2): 196-197 [9] Supra [3]
Online since: May 2020
Chinese Materials Conference 2019 had 42 Symposia and 3 Forums covering four fields of Energy and environmental materials, Aadvanced functional materials, Hhigh performance structural materials, and Ddesign, preparation and characterization of materials.
By recommendation of symposium organizers and after peer reviewing 262 papers are published in the present volume, which are divided into nine chapters of Chapter 1: High Performance Structural Alloys, Properties and Processing Technologies (62 papers) Chapter 2: Steels and Structural Metals, Properties and Processing Technologies (44 papers) Chapter 3: Computational Procedures in Materials Science (22 papers) Chapter 4: Tubular Goods and Equipment Materials (44 papers) Chapter 5: Advanced Functional Materials (30 papers) Chapter 6: Materials and Technologies for Energy Storage Devices, Alternative Energy Production (7 papers) Chapter 7: Materials and Technologies for Environmental Engineering and Waste Recycling (23 papers) Chapter 8: Advanced Building Materials (6 papers) Chapter 9: Characterization and Evaluation of Materials (10 papers) Chapter 10: Functional Coatings, Surface Treatment and Corrosion Behavior of Structural Materials (10 papers) Chapter
Editor Committees Yang Bai Faqin Dong Yaorong Feng Zhongwei Gu Bin Jiang Xingyou Lang Guangxian Li Yanrong Li Zhaosheng Li Jianguo Lin Wensheng Liu Xuefeng Liu Guanghong Lv Zuoren Nie Yanqing Su Haipeng Wang Laner Wu Ying Wu Baiqing Xiong Kefu Yao Di Zhang Yong Zhang Zengzhi Zhang Jijun Zhao Yongqing Zhao Yichun Zhou Ying Zhou Meifang Zhu Miaoyong Zhu Tiejun Zhu Organized by Chinese Materials Research Society(C-MRS) Supported by Ministry of Science and Technology of China China Association for Science and Technology National Natural Science Foundation of China Chinese Academy of Sciences Chinese Academy of Engineering
By recommendation of symposium organizers and after peer reviewing 262 papers are published in the present volume, which are divided into nine chapters of Chapter 1: High Performance Structural Alloys, Properties and Processing Technologies (62 papers) Chapter 2: Steels and Structural Metals, Properties and Processing Technologies (44 papers) Chapter 3: Computational Procedures in Materials Science (22 papers) Chapter 4: Tubular Goods and Equipment Materials (44 papers) Chapter 5: Advanced Functional Materials (30 papers) Chapter 6: Materials and Technologies for Energy Storage Devices, Alternative Energy Production (7 papers) Chapter 7: Materials and Technologies for Environmental Engineering and Waste Recycling (23 papers) Chapter 8: Advanced Building Materials (6 papers) Chapter 9: Characterization and Evaluation of Materials (10 papers) Chapter 10: Functional Coatings, Surface Treatment and Corrosion Behavior of Structural Materials (10 papers) Chapter
Editor Committees Yang Bai Faqin Dong Yaorong Feng Zhongwei Gu Bin Jiang Xingyou Lang Guangxian Li Yanrong Li Zhaosheng Li Jianguo Lin Wensheng Liu Xuefeng Liu Guanghong Lv Zuoren Nie Yanqing Su Haipeng Wang Laner Wu Ying Wu Baiqing Xiong Kefu Yao Di Zhang Yong Zhang Zengzhi Zhang Jijun Zhao Yongqing Zhao Yichun Zhou Ying Zhou Meifang Zhu Miaoyong Zhu Tiejun Zhu Organized by Chinese Materials Research Society(C-MRS) Supported by Ministry of Science and Technology of China China Association for Science and Technology National Natural Science Foundation of China Chinese Academy of Sciences Chinese Academy of Engineering
Online since: August 2009
Authors: Tungwai Leo Ngai, Chang Xu Hu, Jun Jun Zheng, G.R. Pan, Yuan Yuan Li
Li5
Guangdong Key Laboratory for Advanced Metallic Materials Fabrication and Forming,School of
Mechanical & Automotive Engineering, South China University of Technology, 510640 Wushan,
Guangzhou, P.
Ti3SiC2 is an advanced ceramic with an electrical conductivity roughly 2 orders of magnitude larger than that of graphite.
Li: Materials Science Forum.
Xiao: Materials Science Forum.
Zhou: Materials Science Forum.
Ti3SiC2 is an advanced ceramic with an electrical conductivity roughly 2 orders of magnitude larger than that of graphite.
Li: Materials Science Forum.
Xiao: Materials Science Forum.
Zhou: Materials Science Forum.
Online since: August 2018
Authors: Tadashi Nishihara, Tetta Tajima, Hamed Mofidi Tabatabaei
Introduction
Composite materials have wide applications in cutting-edge ranges of advanced materials as medical devices, sport parts, automotive and especially for materials that are needed for aerospace, underwater, and transportation applications.
Gheorghe, Manufacturing Process and Applications of Composite Materials, Fascicle of Management and Technological Engineering, IX (XIX) (2010) NR2, 3.1-3.6
Callister, Jr., Materials Science and Engineering.
Forum. 426-432 (2003) 2971-2978
[9] Takahiro Ohashi, Jiazhao Chen, Tadashi Nishihara, Hamed Mofidi Tabatabaei, Friction Stir Forming of Aluminum Alloy Gear-Racks, Key Engineering Materials. 725 (2016) 665-670
Gheorghe, Manufacturing Process and Applications of Composite Materials, Fascicle of Management and Technological Engineering, IX (XIX) (2010) NR2, 3.1-3.6
Callister, Jr., Materials Science and Engineering.
Forum. 426-432 (2003) 2971-2978
[9] Takahiro Ohashi, Jiazhao Chen, Tadashi Nishihara, Hamed Mofidi Tabatabaei, Friction Stir Forming of Aluminum Alloy Gear-Racks, Key Engineering Materials. 725 (2016) 665-670
Online since: May 2020
Authors: Vladimir N. Shinkin
Introduction
The round rod (beam) is widely used in the metallurgical and engineering industries [1-30].
The results of the research can be used in the metallurgical and engineering industries in the production of the metal products from the round rod and the construction armature.
Moshnin, Bending and Straightening on Rotary Machines: Technology and Equipment, Mechanical Engineering, 1967
Romanovskiy, Reference on Cold Stamping, Mechanical Engineering, 1971
Gilormini, Advanced Methods in Materials Processing Defects, vol. 45, Elsevier Science, 1997
The results of the research can be used in the metallurgical and engineering industries in the production of the metal products from the round rod and the construction armature.
Moshnin, Bending and Straightening on Rotary Machines: Technology and Equipment, Mechanical Engineering, 1967
Romanovskiy, Reference on Cold Stamping, Mechanical Engineering, 1971
Gilormini, Advanced Methods in Materials Processing Defects, vol. 45, Elsevier Science, 1997
Online since: April 2014
Authors: Qiang Zhang, Xu Long Dong, Dong Sheng Zhou
Motion Key-Frames Extraction Based on Locally Linear Embedding
Xulong Dong, Dongsheng Zhou and Qiang Zhang*
Key Laboratory of Advanced Design and Intelligent Computing (Dalian University) Ministry of Education, Dalian, 116622, China
*zhangq26@126.com
Keywords: LLE; key-frames extraction; manifold learning
Abstract.
Peng: Journal of System Simulation, Forum Vol. 24 (2012), p. 565-569, In Chinese
Liu: Transportation, Mechanical, and Electrical Engineering (TMEE), China (2011), p. 1650-1653
Zhao: PR & AI, Forum Vol. 24 (2011), p. 619-628, In Chinese
Forum Vol. 22 (2010), p. 670-675, In Chinese
Peng: Journal of System Simulation, Forum Vol. 24 (2012), p. 565-569, In Chinese
Liu: Transportation, Mechanical, and Electrical Engineering (TMEE), China (2011), p. 1650-1653
Zhao: PR & AI, Forum Vol. 24 (2011), p. 619-628, In Chinese
Forum Vol. 22 (2010), p. 670-675, In Chinese