Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: October 2010
The 2010 International Conference on
Manufacturing Engineering and Automation (ICMEA 2010)
Sponsored by
Guangzhou University, China
The University of New South Wales, Australia
Huazhong University of Science and Technology, China
Xi'an Jiaotong University, China
Conference Organization
Conference Chairman
Liangchi Zhang, The University of New South Wales, Australia
Conference Co-Chairmen
Chunliang Zhang, Guangzhou University, China
Tielin Shi, Huazhong University of Science and Technology, China
Xieqing Huang, Xi'an Jiaotong University, China
Organizing Committee Chairman
Chunliang Zhang, Guangzhou University, China
Technical Program Committee
Changjun Qiu, University of South China, China
Chunguang Wang, Inner Mongolia Agricultural University, China
Haibo Xia, University of Wollongong, Australia
Hanwu He, Guangdong University of Technology, China
Hualin Chen, Xi'an Jiaotong University, China
Huailin Shu, Guangzhou University, China
Institute of Technology, Japan Weihua Liu, Nanjing University of Aeronautics and Astronartics, China Xiangji He, China National Electric Apparatus Research Institute, China Xiangjun Zou, South China Agricultural University, China Xianmin Zhang, South China University of Technology, China Xiaoli Xu, Equipment Monitoring and Diagnosis Academy, China Yanming Quan, South China University of Technology, China Yihua Liu, Guangzhou Mechanical and Electrical Association, China Yongsheng Zhao, Yanshan University, China Yuantong Gu, Queensland University of Technology, Australia Yuexian Zhong, Tsinghua University, China Yun-Hae Kim, Korea Maritime University, Korea Zhaohui Deng, Hunan University, China Zhengyi Jiang, University of Wollongong, Australia Zhixiong Zhou, Hunan University, China Zhonning Guo, Guangdong University of Technology, China PREFACE This volume contains some selected papers from the 2010 International Conference on Manufacturing Engineering
The conference aims to provide a high-level international forum for engineers and scientists to present their new advances and research results in the field of Manufacturing Engineering and Automation.
This volume covered all aspects of manufacturing engineering and automation, particularly of material science and technology in manufacturing, advanced manufacturing technologies, automation and mechanical dynamics.
The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of Manufacturing Engineering and Automation, and that it will be a valuable reference source for further research.
Institute of Technology, Japan Weihua Liu, Nanjing University of Aeronautics and Astronartics, China Xiangji He, China National Electric Apparatus Research Institute, China Xiangjun Zou, South China Agricultural University, China Xianmin Zhang, South China University of Technology, China Xiaoli Xu, Equipment Monitoring and Diagnosis Academy, China Yanming Quan, South China University of Technology, China Yihua Liu, Guangzhou Mechanical and Electrical Association, China Yongsheng Zhao, Yanshan University, China Yuantong Gu, Queensland University of Technology, Australia Yuexian Zhong, Tsinghua University, China Yun-Hae Kim, Korea Maritime University, Korea Zhaohui Deng, Hunan University, China Zhengyi Jiang, University of Wollongong, Australia Zhixiong Zhou, Hunan University, China Zhonning Guo, Guangdong University of Technology, China PREFACE This volume contains some selected papers from the 2010 International Conference on Manufacturing Engineering
The conference aims to provide a high-level international forum for engineers and scientists to present their new advances and research results in the field of Manufacturing Engineering and Automation.
This volume covered all aspects of manufacturing engineering and automation, particularly of material science and technology in manufacturing, advanced manufacturing technologies, automation and mechanical dynamics.
The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of Manufacturing Engineering and Automation, and that it will be a valuable reference source for further research.
Online since: June 2015
Authors: Ioana Monica Sas-Boca, Dan Frunza, Dana Adriana Iluţiu-Varvara
The appropriate use of friction in practice involves the solving of complex engineering problems.
Frunza, Friction-assisted pressing of PM components, Conference: International Conference on Advanced Materials Processing Technologies, Madrid, Spain Sep 18-21, 2001 Journal of Materials Processing Technology (2003) Volume: 143 Special Issue: SI Pages: 645-650
Frunza, A study of simulation made on powder compaction using friction force as active force, Advanced Composite Materials Engineering - COMAT 2012, Lux Libris; (2012) ISBN 978-973-131-164-7
Sas-Boca, Experimental study regarding compressing process with friction force, Advanced Materials Research Vol. 23 (2007), p. 177-180, 2007 Trans Tech Publications, Switzerland, http://www.scientific.net/AMR.23.177
-W Yu, Research of Favorable Conversion of Friction during Powder Compaction, Material Science Forum, 575-578(1), (2008), 443-448
Frunza, Friction-assisted pressing of PM components, Conference: International Conference on Advanced Materials Processing Technologies, Madrid, Spain Sep 18-21, 2001 Journal of Materials Processing Technology (2003) Volume: 143 Special Issue: SI Pages: 645-650
Frunza, A study of simulation made on powder compaction using friction force as active force, Advanced Composite Materials Engineering - COMAT 2012, Lux Libris; (2012) ISBN 978-973-131-164-7
Sas-Boca, Experimental study regarding compressing process with friction force, Advanced Materials Research Vol. 23 (2007), p. 177-180, 2007 Trans Tech Publications, Switzerland, http://www.scientific.net/AMR.23.177
-W Yu, Research of Favorable Conversion of Friction during Powder Compaction, Material Science Forum, 575-578(1), (2008), 443-448
Online since: May 2020
Authors: Wei Na Di, Gu Fan Zhao
Based on these understandings, it is necessary to conduct tech-mining research and potential application prospect analysis of functional materials, especially advanced smart materials, and to provide new ideas, new methods and new processes for the new generation of petroleum engineering technologies.
On the one hand, on-site demand drives the application of new advanced materials.
These advances in cutting-edge technology would certainly promote the rapid development of petroleum engineering technology [4-8].
Wang, Development and potential application of advanced functional materials in the oil field, Materials Science Forum, 944 (2019) 637–642
Nguyen, Piezoelectric biomaterials for sensors and actuators, Advanced Materials, 31 (2019) 1–15
On the one hand, on-site demand drives the application of new advanced materials.
These advances in cutting-edge technology would certainly promote the rapid development of petroleum engineering technology [4-8].
Wang, Development and potential application of advanced functional materials in the oil field, Materials Science Forum, 944 (2019) 637–642
Nguyen, Piezoelectric biomaterials for sensors and actuators, Advanced Materials, 31 (2019) 1–15
Online since: June 2021
Authors: Lia-Nicoleta Botila, Cristian Ciucă, Radu Cojocaru, Ion Aurel Perianu
Possibilities to Apply Friction Stir Processing FSP in Surface Engineering
Cristian CIUCĂ1,a, Lia-Nicoleta BOȚILĂ2,b*, Radu COJOCARU3,c
and Ion-Aurel PERIANU4,d
1,2,3,4National Research & Development Institute for Welding and Material Testing – ISIM;
Address: 30, Mihai Viteazu Blvd., Postal Code 300222, Timisoara, Romania
acciuca@isim.ro, blbotila@isim.ro, crcojocaru@isim.ro, daperianu@isim.ro
Keywords: friction stir processing, surface engineering, metallic materials
Abstract.
Due to the fact that friction stir processing (FSP) is an ecological and efficient technique, it is a real progress in the field of surface engineering.
This leads to increased interest in the manufacture of advanced materials for specific applications, materials that can be characterized by fine grain sizes [17].
Conclusions · Friction stir processing is a current process of surface machining, which can make significant contributions in the field of surface engineering.
Langdon, Advances in ultrafine-grained materials, Mater.
Due to the fact that friction stir processing (FSP) is an ecological and efficient technique, it is a real progress in the field of surface engineering.
This leads to increased interest in the manufacture of advanced materials for specific applications, materials that can be characterized by fine grain sizes [17].
Conclusions · Friction stir processing is a current process of surface machining, which can make significant contributions in the field of surface engineering.
Langdon, Advances in ultrafine-grained materials, Mater.
Online since: September 2025
Authors: Balaji Raghothamachar, Michael Dudley, Reza Ghandi, Florian Krippendorf, Ze Yu Chen, Shan Shan Hu, Qian Yu Cheng, Stacey Kennerly, Michael Rüb, Charles Carlson, Dannie Steski, Robert Koch, Thomas Kubley
Acknowledgement
The information, data, or work presented herein was funded in part by the Advanced Research Projects Agency-Energy (ARPA-E), U.S.
This research used resources of the Advanced Photon Source, a U.S.
The Joint Photon Sciences Institute at SBU provided partial support for travel and subsistence for access to Advanced Photon Source.
Dudley, Defect and Diffusion Forum 434, 87-92. (2024) [10] T.
Burghartz, Microelectronic Engineering 222 (2020) 111203 [11] Z.
This research used resources of the Advanced Photon Source, a U.S.
The Joint Photon Sciences Institute at SBU provided partial support for travel and subsistence for access to Advanced Photon Source.
Dudley, Defect and Diffusion Forum 434, 87-92. (2024) [10] T.
Burghartz, Microelectronic Engineering 222 (2020) 111203 [11] Z.
Online since: September 2014
Authors: Nikita V. Martyushev, Alexey N. Yakovlev, Igor B. Ardashkin
Closeness of the companies engaged in foundry engineering, protection of the technological components of foundry, non-transparency of the production resource potential, etc. are the factors that hinder the implementation of efficiency evaluation via benchmarking.
It lies in the fact that even an advanced foundry technology can be evaluated differently throughout the process of its implementation.
Discussion and Conclusions This system is especially demonstrative when applied to foundry technologies since foundry engineering is considered to be the basic element for the industry in general and machine building in particular and sets the further course of industrial production.
Bogdan, The resource efficiency assessment technique for the foundry production, Advanced Materials Research. 880 (2014) 141 - 145 [5] I.O.
Petrenko, Effects of crystallization conditions on lead tin bronze properties, Advanced Materials Research. 880 (2014) 174 - 178 [8] D.A.
It lies in the fact that even an advanced foundry technology can be evaluated differently throughout the process of its implementation.
Discussion and Conclusions This system is especially demonstrative when applied to foundry technologies since foundry engineering is considered to be the basic element for the industry in general and machine building in particular and sets the further course of industrial production.
Bogdan, The resource efficiency assessment technique for the foundry production, Advanced Materials Research. 880 (2014) 141 - 145 [5] I.O.
Petrenko, Effects of crystallization conditions on lead tin bronze properties, Advanced Materials Research. 880 (2014) 174 - 178 [8] D.A.
Online since: September 2006
Authors: Thilo Pirling, Giovanni Bruno, Philip J. Withers
SALSA: Advances in Residual Stress Measurement at ILL
T.
For this purpose a Coordinate Measuring Machine (CMM) [11] is available in FaME38, the Facility for Materials Engineering, located nearby at ILL.
References [1] T.Pirling, G.Bruno, P.Withers, SALSA - A New Instrument for Strain Imaging in Engineering Materials & Components, accepted for publication in Materials Science and Engineering A, (2006) [2] P.J.
Forum, 321-324, (2000) 206-211 [6] P.J.
Forum, 347-349, (2000) 107-112 [8] T.Pirling, Mat.
For this purpose a Coordinate Measuring Machine (CMM) [11] is available in FaME38, the Facility for Materials Engineering, located nearby at ILL.
References [1] T.Pirling, G.Bruno, P.Withers, SALSA - A New Instrument for Strain Imaging in Engineering Materials & Components, accepted for publication in Materials Science and Engineering A, (2006) [2] P.J.
Forum, 321-324, (2000) 206-211 [6] P.J.
Forum, 347-349, (2000) 107-112 [8] T.Pirling, Mat.
Online since: June 2010
Authors: Hideki Yoshikawa, Takuya Ishimoto, Takayoshi Nakano, Koichi Kuramoto, Yoshihiro Noyama, Takashi Sakai
Quantity and Quality of Regenerated Bone in Grooves Aligned at
Different Angles from the Implant Surface
Yoshihiro Noyama1,2, a, Takuya Ishimoto1, b, Koichi Kuramoto2, c,
Takashi Sakai3, d, Hideki Yoshikawa3, e and Takayoshi Nakano
1, f
1
Division of Materials and Manufacturing Science, Graduate School of Engineering,
Osaka University, 2-1, Yamada-oka, Suita, Osaka 565-0871, Japan
2
R & D Group, Nakashima Medical Co.
All procedures were approved by the Graduate School of Engineering Animal Studies Committee, Osaka University.
Forum Vol. 561-565 (2007), p. 1451
Forum Vol. 638-642 (2010), p. 664
Forum Vol. 638-642 (2010), p. 576
All procedures were approved by the Graduate School of Engineering Animal Studies Committee, Osaka University.
Forum Vol. 561-565 (2007), p. 1451
Forum Vol. 638-642 (2010), p. 664
Forum Vol. 638-642 (2010), p. 576
Online since: November 2012
Authors: Chun Ying Huang, Xiao Ming Wang
But each part must consider the needs of itself, the other parts, and the ensemble at the same time, during the group decision-making of the project, so that sustainable development and harmonious symbiosis can be advanced through the construction project
Lack of Engineering Practice.
Malych: Proc. 6th International Forum on Strategic Technology (Harbin, China, August 22-24, 2011), Vol. 1, p. 499
Civil Engineering Soc.
Civil Engineering Soc.
Lack of Engineering Practice.
Malych: Proc. 6th International Forum on Strategic Technology (Harbin, China, August 22-24, 2011), Vol. 1, p. 499
Civil Engineering Soc.
Civil Engineering Soc.
Online since: February 2022
Authors: L.V. Radionova, R.A. Lisovskiy, A.S. Svistun, I.N. Erdakov
., used for television and radio engineering, are made from nickel wire [2, 3].
Mehregany, Development of Nickel wire bonding for high-temperature packaging of SiC devices, IEEE Transactions on Advanced Packaging. 32(2) (2009) 564-574
Gasiyarov (Eds.), Proceedings of the 6th International Conference on Industrial Engineering (ICIE 2020).
Lecture Notes in Mechanical Engineering, Springer, Cham., pp.1150-1163
Lisovskaya, Automated laboratory drawing mill, Russian Internet Journal of Industrial Engineering. 5(2) (2017) 68-73.
Mehregany, Development of Nickel wire bonding for high-temperature packaging of SiC devices, IEEE Transactions on Advanced Packaging. 32(2) (2009) 564-574
Gasiyarov (Eds.), Proceedings of the 6th International Conference on Industrial Engineering (ICIE 2020).
Lecture Notes in Mechanical Engineering, Springer, Cham., pp.1150-1163
Lisovskaya, Automated laboratory drawing mill, Russian Internet Journal of Industrial Engineering. 5(2) (2017) 68-73.