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Online since: February 2014
MEMS-NAO 2014 is an annual conference to call together researchers, engineers, academicians as well
as industrial professionals from all over the world to present their research results and development
activities in MEMs and Materials science.
The papers come from both academia and industry reflecting the international flavor of this event in the topics of MEMS, Mechanical Materials and Manufacturing Engineering.
Chapter 1: Materials Science, Processing and Application, 2.
For example, the "Theoretical Method Research on a MEMS Safety and Arming Device" by Liu Fangyi provided novel theoretical analysis in MEMS safety; the application of Ferroferric Oxide Nanoparticle was introduced in "Polymerization of Acrylamide Photo Initiated by Ferroferric Oxide Nanoparticles" by Jing Tian was highlight of the Materials Science, Processing and Application session.
All accepted papers will be published on international journal " Advanced Materials Research (ISSN: 1022-6680) " and will be indexed in the major academic databases, including EI Compendex, Thomson ISI (ISTP) , and other indexing services.
The papers come from both academia and industry reflecting the international flavor of this event in the topics of MEMS, Mechanical Materials and Manufacturing Engineering.
Chapter 1: Materials Science, Processing and Application, 2.
For example, the "Theoretical Method Research on a MEMS Safety and Arming Device" by Liu Fangyi provided novel theoretical analysis in MEMS safety; the application of Ferroferric Oxide Nanoparticle was introduced in "Polymerization of Acrylamide Photo Initiated by Ferroferric Oxide Nanoparticles" by Jing Tian was highlight of the Materials Science, Processing and Application session.
All accepted papers will be published on international journal " Advanced Materials Research (ISSN: 1022-6680) " and will be indexed in the major academic databases, including EI Compendex, Thomson ISI (ISTP) , and other indexing services.
Online since: November 2010
Authors: Guo Fu Gao, Dao Hui Xiang, Xin Tao Zhi, Guang Xi Yue, Bo Zhao
At present, with the development of material, the higher SiC content of volume in MMCs materials is needed especially in aerospace fields.
Reference [1] Cole GS and Sherman AM: Materials Characterization, Vol. 35 (1995), pp.3-9
[2] Davim JP and Baptista AM: Journal of Materials Processing Technology, Vol. 103 (2000), pp. 417-423
El-Gallab: Journal of Materials Processing Technology, Vol. 56 (1996), pp. 643-654
M: Journal of Materials Processing Technology, Vol. 83 (1998), pp. 151-158
Reference [1] Cole GS and Sherman AM: Materials Characterization, Vol. 35 (1995), pp.3-9
[2] Davim JP and Baptista AM: Journal of Materials Processing Technology, Vol. 103 (2000), pp. 417-423
El-Gallab: Journal of Materials Processing Technology, Vol. 56 (1996), pp. 643-654
M: Journal of Materials Processing Technology, Vol. 83 (1998), pp. 151-158
Online since: August 2014
Authors: Ileana Nicoleta Popescu, Dan Nicolae Ungureanu, Bebe Adrian Olei, Ruxandra Vidu, Vasile Bratu, Florina Violeta Anghelina
The all types of sintered and age-hardened materials (with 0-20 %wt.
Characterization of sintered and age-hardened composite materials.
Popescu, Computational Materials Science, 11 (2012) 136–140
Sorcoi, Materials Science Forum 672 (2011) 251–254
[8] A.P.Sannino, H.J.Rack, Journal of Material Science 30 (1995) 4316-4322
Characterization of sintered and age-hardened composite materials.
Popescu, Computational Materials Science, 11 (2012) 136–140
Sorcoi, Materials Science Forum 672 (2011) 251–254
[8] A.P.Sannino, H.J.Rack, Journal of Material Science 30 (1995) 4316-4322
Online since: December 2013
Authors: Qin He Zhang, Min Zhang, De Zheng Kong, Yang Ren
Introduction
Electro-arc machining process is applying electro arcing to remove the workpicec materials [1], including arc dimensional machining (ADM) [2], electrochemical arc machining (ECAM) [3], blasting erosion arc machining (BEAM) [1], electro-melting-explosion [4], short electric arc machining (SEAM ) [5], etc.
In electro-arc machining, electrical discharges between electrode and workpiece is used to remover materials, which is the same as conventional EDM.
Zhou, Study on Rules in Material Removal Rate and Surface Quality of Short Electric Arc Machining Process, Advanced Materials Research 33 (2008) 1313-1318
Schumacher, After 60 years of EDM the discharge process remains still disputed, Journal of Materials Processing Technology. 149 (2004) 376-381
Zhou, High-speed EDM milling with moving electric arcs, International journal of machine tools and manufacture. 49 (2009) 20-24
In electro-arc machining, electrical discharges between electrode and workpiece is used to remover materials, which is the same as conventional EDM.
Zhou, Study on Rules in Material Removal Rate and Surface Quality of Short Electric Arc Machining Process, Advanced Materials Research 33 (2008) 1313-1318
Schumacher, After 60 years of EDM the discharge process remains still disputed, Journal of Materials Processing Technology. 149 (2004) 376-381
Zhou, High-speed EDM milling with moving electric arcs, International journal of machine tools and manufacture. 49 (2009) 20-24
Online since: December 2013
Authors: S. Izman, Denni Kurniawan, M.Y. Noordin, Rusdi Nur
Representative specific energy for machining different materials was published by Kalpakjian and Schmid [8].
Jabbouri, Journal of Cleaner Production
Xiao, Machining Science and Technology. 12(3) (2008), p.325-347 [10] El-Hossainy, T.M., A.A.
Nasr, Materials and Manufacturing Processes. 25(10) (2010), p.1101-1114 [11] Khidhir, B.A. and B.
Sharif, Materials and Manufacturing Processes. 25 (2010), p.370-377
Jabbouri, Journal of Cleaner Production
Xiao, Machining Science and Technology. 12(3) (2008), p.325-347 [10] El-Hossainy, T.M., A.A.
Nasr, Materials and Manufacturing Processes. 25(10) (2010), p.1101-1114 [11] Khidhir, B.A. and B.
Sharif, Materials and Manufacturing Processes. 25 (2010), p.370-377
Online since: June 2009
Authors: Hong Ping Zhu, Dan Sheng Wang, Dan Yan Shen
Dimarogonas: Journal of Sound and Vibration, Vol.
138(1990).
Narkis: Journal of Sound and Vibration, Vol. 172(1994).
Shah: Journal of Engineering Mechanics, Vol. 126(2000), p.273 [4] D.
Zhu: Key Engineering materials, Vol. 293-294(2005), p.557 [6] J.
Ye: Earthquake Engineering and Structural Dynamics, Vol. 36(2007), p1089 [10] S A Paipetis, A D Dimarogonas: Analytical Methods in Rotor Dynamics, London: Elsevier Applied Science, 1986 [11] S Loutridis, E Douha, and A Trochidis: Journal of Sound and Vibration, Vol. 277(2004), p1025
Narkis: Journal of Sound and Vibration, Vol. 172(1994).
Shah: Journal of Engineering Mechanics, Vol. 126(2000), p.273 [4] D.
Zhu: Key Engineering materials, Vol. 293-294(2005), p.557 [6] J.
Ye: Earthquake Engineering and Structural Dynamics, Vol. 36(2007), p1089 [10] S A Paipetis, A D Dimarogonas: Analytical Methods in Rotor Dynamics, London: Elsevier Applied Science, 1986 [11] S Loutridis, E Douha, and A Trochidis: Journal of Sound and Vibration, Vol. 277(2004), p1025
Online since: December 2010
Authors: L.R. Cai, J.H. Yu, Z.M. Wan
The introduction of
superabrasive materials in the grinding industry has resulted in improvements both in the
productivity of the process and in the quality (in terms of better surface integrity and tighter
tolerances) of the ground parts.
Since both must be electrically conductive, only wheels of metallic or conductive bonding materials can be EDD'ed[5].
Acknowledgements The authors gratefully acknowledge the support by Natural Science Foundation of Tianjing (No. 10JCYBJC07000) and research fund of TUTE (No.
Journal of Materials Processing Technology.
Journal of Materials Processing Technology, 149,(2004)p. 524-529
Since both must be electrically conductive, only wheels of metallic or conductive bonding materials can be EDD'ed[5].
Acknowledgements The authors gratefully acknowledge the support by Natural Science Foundation of Tianjing (No. 10JCYBJC07000) and research fund of TUTE (No.
Journal of Materials Processing Technology.
Journal of Materials Processing Technology, 149,(2004)p. 524-529
Online since: August 2013
Authors: Hua Ling Deng, Qi Lei Sun
In 1999, acid rain corrosion of the world caused economic losses up to $ 20 billion, China's losses due to corrosion of materials caused by acid rain up to 30 billion yuan as well[2].Tower is the load-bearing structure of the high-voltage transmission lines.
Experiment Test materials are selected from Q460 galvanized steel tube tower, compositions shown in Table 1.Simulated acid rain solution using AR grade reagent (NH4)2SO4, MgSO4, CaCl2, KNO3, NaF, secondary distilled water and analytical reagent formulation, the major ionic components are shown in Table 2, respectively, 3.8 and 2.4 with dilute sulfuric acid to adjust the pH value.
Corrosion Science and Protection Technology Vol. 14 (2002), p. 157-160
Journal of Chinese Society for Corrosion and Protection Vol. 22 (2002), p. 316
Journal of Chongqing Normal University(Natural Science Edition) Vol. 23 (2006), p. 55.
Experiment Test materials are selected from Q460 galvanized steel tube tower, compositions shown in Table 1.Simulated acid rain solution using AR grade reagent (NH4)2SO4, MgSO4, CaCl2, KNO3, NaF, secondary distilled water and analytical reagent formulation, the major ionic components are shown in Table 2, respectively, 3.8 and 2.4 with dilute sulfuric acid to adjust the pH value.
Corrosion Science and Protection Technology Vol. 14 (2002), p. 157-160
Journal of Chinese Society for Corrosion and Protection Vol. 22 (2002), p. 316
Journal of Chongqing Normal University(Natural Science Edition) Vol. 23 (2006), p. 55.
Online since: November 2011
Authors: Raihan Othman, Mohd Hanafi Ani
Tang, Materials Science Forum, 461-464, 775-782 (2004)
Johansson, Materials and Corrosion, 53, 247–255 (2002)
Fergus, Materials Science and Engineering A, 397, 271-283 (2005)
Singheiser, Materials at High Temperature, 20 (2), 115-127 (2003)
Linderoth, Materials Science and Engineering A, 361, 198-212 (2003)
Johansson, Materials and Corrosion, 53, 247–255 (2002)
Fergus, Materials Science and Engineering A, 397, 271-283 (2005)
Singheiser, Materials at High Temperature, 20 (2), 115-127 (2003)
Linderoth, Materials Science and Engineering A, 361, 198-212 (2003)
Online since: September 2011
Authors: Li Liu, Ting Gao, Chang Fa Xiao, Xing Huang, Jun Lu
Effects of pulsed magnetic field on crystallization properties of polyphenlene sulfide
Xing Huang1, a, Jun Lu1,b, Ting Gao1,c, Changfa Xiao2,d, Li Liu1,2,e
1Department of Polymer Science, School of Material Science and Engineering Technology, Shanghai University, Chengzhong Road, 20, jiading District, Shanghai 201800, China
2Department of Materials Science and Engineering, School of Materials Science and Engineering, Tianjin Polytechnic University, Chenglin Road 63, Hedong District, Tianjin 300160, China
axingxinghg@126.com, blujuncmzx@126.com cgaotingchinaman@163.com, dcfxiao@tjpu.edu.cn, dliuli@staff.shu.edu.cn
Keywords: Polyphenylene Sulfide (PPS); Isothermal Crystallization; Pulsed Magnetic Field; Differential Scanning Calorimeter (DSC); X-ray Diffraction (XRD).
Introduction The properties of polymeric materials depend deeply on aggregated structure primarily resting with cryst- allization and orientation [1].
It’s a hot-issue that a technique can be used to control the crystallization properties of materials by use of an external magnetic field[1].
Science and Technology of Advanced Materials.
Journal of Shenyang Institute of Chemical Technology.
Introduction The properties of polymeric materials depend deeply on aggregated structure primarily resting with cryst- allization and orientation [1].
It’s a hot-issue that a technique can be used to control the crystallization properties of materials by use of an external magnetic field[1].
Science and Technology of Advanced Materials.
Journal of Shenyang Institute of Chemical Technology.