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Online since: December 2004
Authors: Z.X. Jia, S.L. Ye, J. Su, R. Hua
Hua
1,d
1
Department of mechantronics engineering, Foshan university, Foshan 528000,China
2
School of mechantronics engineering, Guangdong University of Tech., Guangzhou 510090, China
3
School of mechanical engineering, University of Science and Tech.
Advances in Materials Manufacturing Science and Technology 306 3.
Zhang: Precision Engineering Vol. 17 (1995), p. 89 [2] W.G.
Mizutani, K.Yonemochi, et al: Precision Engineering Vol. 8 (1986), p. 163 [5] W.S.
Zhao: Advanced Electrical Discharge Machining Technology (National Defense Industry Press, China 2003) (in Chinese) [6] W.S.
Advances in Materials Manufacturing Science and Technology 306 3.
Zhang: Precision Engineering Vol. 17 (1995), p. 89 [2] W.G.
Mizutani, K.Yonemochi, et al: Precision Engineering Vol. 8 (1986), p. 163 [5] W.S.
Zhao: Advanced Electrical Discharge Machining Technology (National Defense Industry Press, China 2003) (in Chinese) [6] W.S.
Online since: May 2005
Authors: Lea Di Cioccio, Michel Pons, Jean Marc Dedulle, Elisabeth Blanquet, Peter J. Wellmann, Roland Madar, Didier Chaussende, Francis Baillet, Pierre Ferret, Örjan Danielsson, M. Ucar
Introduction
Modeling is rapidly emerging as a reliable engineering tool in research, development and
production of SiC crystals and epitaxial layers.
Today, it is now well-established that the hot-wall reactor concept for SiC homoepitaxy is the most advanced and developed machine (Fig. 4).
The last and more advanced step is to better understand the intentional incorporation of dopants.
Forum Vol. 457-460 (2004), p. 3 [2] A.
Forum Vol. 457-460 (2004), p. 9 [3] T.L.
Today, it is now well-established that the hot-wall reactor concept for SiC homoepitaxy is the most advanced and developed machine (Fig. 4).
The last and more advanced step is to better understand the intentional incorporation of dopants.
Forum Vol. 457-460 (2004), p. 3 [2] A.
Forum Vol. 457-460 (2004), p. 9 [3] T.L.
Online since: July 2011
Authors: E. Beamud, Angel Ramon Martín, Eustaquio García Plaza, Pedro José Núñez
Teaching methodology for industrial engineering must adapt and update its pedagogy by adopting innovative and dynamic approaches to training in state-of-the-art manufacturing technology.
Undoubtedly, most if not all the products of today’s modern consumer society have been manufactured to a lesser or greater degree, which underscores the significance of manufacturing technology as a subject in industrial engineering faculties.
Schmid, Manufacturing, Engineering and Technology, Pearson Education, Inc., (2009)
Batista et al: Material Science Forum, Vol. 625, (2009) 19
Sevilla et al: Material Science Forum, Vol. 625, (2009) 51
Undoubtedly, most if not all the products of today’s modern consumer society have been manufactured to a lesser or greater degree, which underscores the significance of manufacturing technology as a subject in industrial engineering faculties.
Schmid, Manufacturing, Engineering and Technology, Pearson Education, Inc., (2009)
Batista et al: Material Science Forum, Vol. 625, (2009) 19
Sevilla et al: Material Science Forum, Vol. 625, (2009) 51
Online since: December 2004
Authors: W. Li, Yang Fu Jin, Xun Lv, C.H. Kua
Materials Science Forum Vols. *** (2004) pp.490-493
online at http://scientific.net
Ó 2004 Trans Tech Publications, Switzerland
A Study on Computer Simulation of Plastic Lens Molding Process
W.
In this paper, some molding process parameters such as injection time, packing time, packing pressure and process temperature etc. were optimized by the Computer Aided Engineering (CAE) simulation (Moldex 3D) for injection molding of a plastic lens.
Using Computer Aided Engineering (CAE) simulation tools, alternative design and process parameters can be explored before embarking on expensive molding trials.
The processing conditions Materials Science Forum Vols. *** 491 recommended by the resin manufacturer and the default parameters setting from Moldex CAE are tabulated in Table1.
Injection time denotes the velocity at which the screw advances during the injection phase.
In this paper, some molding process parameters such as injection time, packing time, packing pressure and process temperature etc. were optimized by the Computer Aided Engineering (CAE) simulation (Moldex 3D) for injection molding of a plastic lens.
Using Computer Aided Engineering (CAE) simulation tools, alternative design and process parameters can be explored before embarking on expensive molding trials.
The processing conditions Materials Science Forum Vols. *** 491 recommended by the resin manufacturer and the default parameters setting from Moldex CAE are tabulated in Table1.
Injection time denotes the velocity at which the screw advances during the injection phase.
Online since: July 2013
Since the large scale
commercialization and application of synthetic polymers in 20th century, polymer
materials have been used in almost all aspects of human lives, science, engineering,
biotechnologies, medicine, space exploration, goods production and package etc.
Since polymer materials possess superb properties such as elasticity, toughness, flexibility, low density and high performance etc, polymer materials are the key engineering materials and widely used in the fields of economic development, scientific & technological innovation.
Rapid economic and social developments in 21st Century for China require more advanced manufacturing and processing technologies, also since China has entered "The 12th 5-Year Plan", Chinese polymer material industry turned from manufacture to innovation step by step.
With future improving in scientific and technological levels, the development direction in high performance modification, functionalization, environment-friendly technologies for polymer and polymer composite materials will raise a whole world of research subject to the scientific community and engineering world.
"Advance Polymmer Processing Inter'l Forum 2012 (APPF2012)" organized by China Science Foundation, Qingdao Municipal Government and hosted by Qingdao University of Science and Technology were successfully opened and held in Qingdao, China from Sept. 28th to 30th, 2012.
Since polymer materials possess superb properties such as elasticity, toughness, flexibility, low density and high performance etc, polymer materials are the key engineering materials and widely used in the fields of economic development, scientific & technological innovation.
Rapid economic and social developments in 21st Century for China require more advanced manufacturing and processing technologies, also since China has entered "The 12th 5-Year Plan", Chinese polymer material industry turned from manufacture to innovation step by step.
With future improving in scientific and technological levels, the development direction in high performance modification, functionalization, environment-friendly technologies for polymer and polymer composite materials will raise a whole world of research subject to the scientific community and engineering world.
"Advance Polymmer Processing Inter'l Forum 2012 (APPF2012)" organized by China Science Foundation, Qingdao Municipal Government and hosted by Qingdao University of Science and Technology were successfully opened and held in Qingdao, China from Sept. 28th to 30th, 2012.
Online since: February 2021
Preface
With the current development of materials science and engineering, many different cost-effective and high-quality materials have come into use in various applications.
Thus, this volume of the journal Materials Science Forum presents to readers the 2nd special issue from the series Current Advances in Materials Applications, which contains articles covering different aspects of the research the properties of the materials and methods their applications.
Thus, this volume of the journal Materials Science Forum presents to readers the 2nd special issue from the series Current Advances in Materials Applications, which contains articles covering different aspects of the research the properties of the materials and methods their applications.
Online since: December 2004
Authors: Zhi Yu Xiao, M.Y. Ke, D.H. Ni, Wei Ping Chen, Yuan Yuan Li
Materials Science Forum Vols. *** (2004) pp.443-447
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
A Study on Warm Compacting Behaviors of 316L Stainless Steel Powder
Z.Y.
Li1,e 1 College of Mechanical Engineering, South China University of Technology, Guangzhou,China a zhyxiao@scut.edu,cn, bmeiyuanke@21cn.com, cmewpchen@scut.edu.cn, dleongai@sina.com, e mehjli@scut.edu.cn Keywords: Stainless steel powders, Warm compaction, Die wall lubrication, Lubricant Abstract.
Advances in Materials Manufacturing Science and Technology 446 Die Wall Lubrication.
Acknowledgements This study was financially supported by the National Natural Science Foundation of China (No.50135020) and the National Advanced Materials Committee of China (No.2001AA337010).
Unked: Advance in Powder Metallurgy and Particulate Materials Vol. 1 (1995), p. 2 [5] D.Yarnton and T.J.
Li1,e 1 College of Mechanical Engineering, South China University of Technology, Guangzhou,China a zhyxiao@scut.edu,cn, bmeiyuanke@21cn.com, cmewpchen@scut.edu.cn, dleongai@sina.com, e mehjli@scut.edu.cn Keywords: Stainless steel powders, Warm compaction, Die wall lubrication, Lubricant Abstract.
Advances in Materials Manufacturing Science and Technology 446 Die Wall Lubrication.
Acknowledgements This study was financially supported by the National Natural Science Foundation of China (No.50135020) and the National Advanced Materials Committee of China (No.2001AA337010).
Unked: Advance in Powder Metallurgy and Particulate Materials Vol. 1 (1995), p. 2 [5] D.Yarnton and T.J.
Online since: December 2004
Authors: J.Y. Wang, Z.F. Liu, Y. Lv
The integration of
information is a key part, but it is impossible for recycling enterprises to get all the information of Materials Science Forum Vols. *** 683
each product or part.
In recycling, the selection of methods and processes is considered to be the most important part, which should be supported by theory and engineering technology of different fields.
Cai: China Mechanical Engineering Vol. 11 (2000), p. 983 (in Chniese) [4] T.
Sato: http://global.mitsubishielectric.com/pdf/advance/vol80/80r&d.pdf (1997) [6] E.
Hirasawa: http://global.mitsubishiele_ctric.com/pdf/advance/vol87/87tr3.pdf (1999).
In recycling, the selection of methods and processes is considered to be the most important part, which should be supported by theory and engineering technology of different fields.
Cai: China Mechanical Engineering Vol. 11 (2000), p. 983 (in Chniese) [4] T.
Sato: http://global.mitsubishielectric.com/pdf/advance/vol80/80r&d.pdf (1997) [6] E.
Hirasawa: http://global.mitsubishiele_ctric.com/pdf/advance/vol87/87tr3.pdf (1999).
Online since: November 2005
Authors: Michael Korchynsky
These supply-demand strains could be
relaxed by satisfying engineering needs with less steel.
For substitution to be economically viable, the value of weight reduction must exceed the higher cost of a technically more advanced product.
In Sweden, the technology of using HS sheet for fabricating structural components is well advanced [25].
For that reason microalloyed steels deserve to be classified as advanced structural materials.
Forum Vol. 284-286 (1998), p. 295. 18.
For substitution to be economically viable, the value of weight reduction must exceed the higher cost of a technically more advanced product.
In Sweden, the technology of using HS sheet for fabricating structural components is well advanced [25].
For that reason microalloyed steels deserve to be classified as advanced structural materials.
Forum Vol. 284-286 (1998), p. 295. 18.