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Online since: January 2014
Preface
Dear Distinguished Delegates and Guests,
The Organizing Committee warmly welcomes our distinguished delegates and guests to the 2014
4th International Conference on Mechanical Science and Engineering (ICMSE 2014) held on January 2-4, 2014,
Sanya, China.
ICMSE 2014 is sponsored by International Association of Management Science and Engineering Technology (IAMSET).
Thanks also go to Advanced Materials Research Journal, for its wonderful editor service to this proceeding.
CAO Jianguo, University of Science and Technology Beijing, China Prof.
LIEW Kim Meow, City University of HongKong, HongKong Sponsors International Association of Management Science and Engineering Technology (IAMSET), HongKong Zhengzhou University, China
ICMSE 2014 is sponsored by International Association of Management Science and Engineering Technology (IAMSET).
Thanks also go to Advanced Materials Research Journal, for its wonderful editor service to this proceeding.
CAO Jianguo, University of Science and Technology Beijing, China Prof.
LIEW Kim Meow, City University of HongKong, HongKong Sponsors International Association of Management Science and Engineering Technology (IAMSET), HongKong Zhengzhou University, China
Online since: July 2014
Authors: Thomas Fiedler, Graeme E. Murch, Irina V. Belova, M.A. Sulong, Vincent Mathier
Materials Letters, 2009. 63(13): p. 1125-1127
Materials Letters, 2009. 63(13-14): p. 1121-1124
Computational Materials Science, 2014. 81: p. 246-248
Materials Science and Engineering: A, (0)
Materials Letters, 2013
Materials Letters, 2009. 63(13-14): p. 1121-1124
Computational Materials Science, 2014. 81: p. 246-248
Materials Science and Engineering: A, (0)
Materials Letters, 2013
Online since: August 2014
Authors: Hua Zhang, Xiao Li Hu, Jian Hua Wang
Therefore, it is necessary to use lightweight design for products that are designed to mass production and will consume a large amount of raw materials.
In this paper, based on unchanging the raw materials, excavator lightweight is implemented by changing the original structure as little as possible.
Liu: Chinese Journal of Nonferrous Metals, Vol. 22 (2012), p.90-98
Yang : Gun Launch and Control Journal, Vol. 2(2011), p.82-85
Solazzi: Journal of Terramechanics, Vol. 47(2010), p.201-207
In this paper, based on unchanging the raw materials, excavator lightweight is implemented by changing the original structure as little as possible.
Liu: Chinese Journal of Nonferrous Metals, Vol. 22 (2012), p.90-98
Yang : Gun Launch and Control Journal, Vol. 2(2011), p.82-85
Solazzi: Journal of Terramechanics, Vol. 47(2010), p.201-207
Online since: September 2013
Authors: Mohd Nazree B. Derman, Mohd Arif Anuar Mohd Salleh, Dewi Suriyani Che Halin, N.M.N. Azira, Muhammad Asri Idris
Derman 1,d and M.A.A Mohd Salleh 1,e
1School of Materials Engineering, Universiti Malaysia Perlis, Kompleks Pusat Pengajian Jejawi 2, Taman Muhibah, 02600 Jejawi, Arau, Perlis, Malaysia
anoorazira@unimap.edu.my, b asri@unimap.edu.my, cdewisuriyani@unimap.edu.my, nazree@unimap.edu.my , earifanuar@unimap.edu.my
Keywords: water treatment, photocatalysis
Abstract.
The aim is to understand the photocatalytic reaction between microbial and photocatalyst materials in order to find the optimized system for water disinfection.
The purification process of water may reduce the concentration of particulate matter including suspended particles, parasites, bacteria, viruses, fungi and a range of dissolved and particulate materials.
The ion exchange process percolates water through bead-like spherical resin materials (ion-exchange resins).
Science, 286 (2005) 487 – 495 [11] Sandra M.
The aim is to understand the photocatalytic reaction between microbial and photocatalyst materials in order to find the optimized system for water disinfection.
The purification process of water may reduce the concentration of particulate matter including suspended particles, parasites, bacteria, viruses, fungi and a range of dissolved and particulate materials.
The ion exchange process percolates water through bead-like spherical resin materials (ion-exchange resins).
Science, 286 (2005) 487 – 495 [11] Sandra M.
Online since: October 2013
Authors: He Jia Liu, Shao Kai Sun, Shi He Jian, Jian Ping Wang
Materials and methods
One healthy subject were recruited (male; 24 years; 65 kg; no formerly medical history of pelvis) to take part in this study.
Foreign Medical Sciences· Department of orthopedics medicine, 2002, 26(4): 198-201
Applied Mechanics and Materials, 2012, 197: 93-97
Applied Mechanics and Materials, 2012, 271-272: 922-926
Journal of Practical Orthopaedics, 2006, 12(4): 332-333
Foreign Medical Sciences· Department of orthopedics medicine, 2002, 26(4): 198-201
Applied Mechanics and Materials, 2012, 197: 93-97
Applied Mechanics and Materials, 2012, 271-272: 922-926
Journal of Practical Orthopaedics, 2006, 12(4): 332-333
Online since: July 2015
Authors: Ernst Kozeschnik, Johannes Kreyca, Ahmad Falahati
Modelling microstructure evolution in polycrystalline aluminium – Comparison between one‐ and multi‐parameter models with experiment
Johannes Kreyca1,a *, Ahmad Falahati1,b and Ernst Kozeschnik1,2,c
1Institute of Materials Science and Technology, Vienna University of Technology,
Favoritenstraße 9‐11, Vienna, 1040, Austria
2Christian Doppler Laboratory “Early Stages of Precipitation”, Institute of Materials Science and
Technology, Vienna University of Technology, Favoritenstraße 9‐11, 1040, Austria
ajohannes.kreyca@tuwien.ac.at, bahmad.falahati@tuwien.ac.at, cernst.kozeschnik@tuwien.ac.at
Keywords: deformation, flow stress, state-parameter models
Abstract.
Mecking, Physics and phenomenology of strain hardening: the FCC case., Progress in Materials Science, Vol.: 48, pp. 171-273, 2002
Montheillet, A critical assessment of three usual equations for strain hardening and dynamic recovery., The Minerals, Metals Materials Society and ASM International, 2014
Journal of Fatique , Vol.: 33, pp. 1369-1375, 2011
Nes, Modelling of work hardening and stress saturation in fcc metals., Progress in Materials Science, Vol 41, pp.129-193, 1998
Mecking, Physics and phenomenology of strain hardening: the FCC case., Progress in Materials Science, Vol.: 48, pp. 171-273, 2002
Montheillet, A critical assessment of three usual equations for strain hardening and dynamic recovery., The Minerals, Metals Materials Society and ASM International, 2014
Journal of Fatique , Vol.: 33, pp. 1369-1375, 2011
Nes, Modelling of work hardening and stress saturation in fcc metals., Progress in Materials Science, Vol 41, pp.129-193, 1998
Online since: August 2019
Authors: S. Muthukumaran, D. Srija, P. Suresh, R. Dinesh Kumar
Table 1 Material Proportion [11].
International Materials Reviews, 54 (2009) 49-93
Farhad Gharavia, Khamirul Amin Matoria, Robiah Yunusa, Norinsan Kamil, Corrosion Behavior of Friction Stir Welded Lap Joints of AA6061-T6 Aluminum Alloy, Materials Research. 17 (2014) 672-681 [7].
Muthukumaran, Effect of First and Second Passes on Microstructure and Wear Properties of Titanium Dioxide-Reinforced Aluminum Surface Composite via Friction Stir Processing, Arabian Journal for Science and Engineering 12 (2018) 12-20 [10].
IOP Conference Series: Materials Science and Engineering. 252 (2017) 1.
International Materials Reviews, 54 (2009) 49-93
Farhad Gharavia, Khamirul Amin Matoria, Robiah Yunusa, Norinsan Kamil, Corrosion Behavior of Friction Stir Welded Lap Joints of AA6061-T6 Aluminum Alloy, Materials Research. 17 (2014) 672-681 [7].
Muthukumaran, Effect of First and Second Passes on Microstructure and Wear Properties of Titanium Dioxide-Reinforced Aluminum Surface Composite via Friction Stir Processing, Arabian Journal for Science and Engineering 12 (2018) 12-20 [10].
IOP Conference Series: Materials Science and Engineering. 252 (2017) 1.
Online since: May 2014
Authors: Hong Wei Liu, Bai Qing Xiong, Xi Wu Li, Feng Wang, Zhi Hui Li, Yong An Zhang
After extrusion, the materials were cooled in air.
Elkin, Dingxiang Tang, Jian Meng, Materials science and Eng.
[4] Shuquan Liang, Dikai Guan, Xiaoping Tan, Liang Chen, Yan Tang, Materials science and Eng.
Ding, Materials science and Eng.
Roven, Materials science and Eng.
Elkin, Dingxiang Tang, Jian Meng, Materials science and Eng.
[4] Shuquan Liang, Dikai Guan, Xiaoping Tan, Liang Chen, Yan Tang, Materials science and Eng.
Ding, Materials science and Eng.
Roven, Materials science and Eng.
Online since: April 2012
Authors: Norazlin Zainal, Mohamed Nor Sabirin, Ri Hanum Yahaya Subban, Norwati Khairyl Anuar
Materials and Methods
The material studied in this work was PEMA complexed with NH4SO3CF3.
Mohamed, PVDF/HFP-NH4CF3SO3-SiO2 nanocomposite polymer electrolytes for protonic electrochemical cells, Key Engineering Materials: Composite Science and Technology 471-472 (2011) 373-378
Subban, Structural and electrical properties of PVC-NH4CF3SO3-EC proton conducting electrolyte system, Advanced Materials Research: Applications of Engineering Materials (2011) 287-290
Mohamed, Conductivity studies on ENR based proton conducting polymer electrolytes, Advanced Materials Research: Material and Manufacturing Technology 129-131 (2010) 61-65
Baskaran, Effect of MgO nanoparticles on ionic conductivity and electrochemical properties of nanocomposite polymer electrolyte, Journal of Membrane Science 300 (2007) 104–110
Mohamed, PVDF/HFP-NH4CF3SO3-SiO2 nanocomposite polymer electrolytes for protonic electrochemical cells, Key Engineering Materials: Composite Science and Technology 471-472 (2011) 373-378
Subban, Structural and electrical properties of PVC-NH4CF3SO3-EC proton conducting electrolyte system, Advanced Materials Research: Applications of Engineering Materials (2011) 287-290
Mohamed, Conductivity studies on ENR based proton conducting polymer electrolytes, Advanced Materials Research: Material and Manufacturing Technology 129-131 (2010) 61-65
Baskaran, Effect of MgO nanoparticles on ionic conductivity and electrochemical properties of nanocomposite polymer electrolyte, Journal of Membrane Science 300 (2007) 104–110
Online since: January 2012
Authors: Xin Huang, Zheng Guo Gao, Xiao Bo Huang, Yu Long Du
In-situ tests for dynamic consolidation
The field is covered with andesite, and rock material parameters are shown in table 1.
Table 1 Basic rock material parameters.
References [1] Naizheng Guo, Jinfeng Zou, Liang Li, Xiaoli Yang, Lianheng Zhao, Hancheng Dan, Journal of Central South University (Science and Technology) 2008,39(1), p. 185-189 [2] Paul W.
Jones, Journal of Geotechnical Engineering, 1983, 109(10), p. 1342-1346 [3] Chow Y K, Yong D M, Yong K Y, Lee S L, J.
2008,29(11), p. 3119-3123 [19] Lixin Zhou, Xiaobo Huang, Changping Deng, Journal of Engineering Geology, 2007, 15(06),p. 812-816 [20] Zhaoxin He, Huxin Zhou, Guoxiong Wu, Journal of Chongqing Jiaotong University, 2002, 21(1), p. 51-55 [21] Tianguang Li, Journal of Engineering Investigation, 1995, (2), p. 14~17 [22] Lingwei Kong, Jianxin Yuan, Journal of Mechanics 1999, 31(2), p. 250-256
Table 1 Basic rock material parameters.
References [1] Naizheng Guo, Jinfeng Zou, Liang Li, Xiaoli Yang, Lianheng Zhao, Hancheng Dan, Journal of Central South University (Science and Technology) 2008,39(1), p. 185-189 [2] Paul W.
Jones, Journal of Geotechnical Engineering, 1983, 109(10), p. 1342-1346 [3] Chow Y K, Yong D M, Yong K Y, Lee S L, J.
2008,29(11), p. 3119-3123 [19] Lixin Zhou, Xiaobo Huang, Changping Deng, Journal of Engineering Geology, 2007, 15(06),p. 812-816 [20] Zhaoxin He, Huxin Zhou, Guoxiong Wu, Journal of Chongqing Jiaotong University, 2002, 21(1), p. 51-55 [21] Tianguang Li, Journal of Engineering Investigation, 1995, (2), p. 14~17 [22] Lingwei Kong, Jianxin Yuan, Journal of Mechanics 1999, 31(2), p. 250-256