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Online since: March 2009
Authors: Roland Madar, Michel Pons, Didier Chaussende, Jessica Eid, Frédéric Mercier
Wellmann et al.: Journal of Physics D Vol.40 (2007), p. 6150
[9] D.
Dudley: Journal of Crystal Growth Vol. 260 (2004), p. 201 [21] E.
Latu-Romain et al.: Materials Science Forum Vol. 483-485 (2005), p. 225 [23] D.
Mercier et al.: Journal of Crystal Growth Vol. 310 (2008), p. 976 [24] D.
Mercier et al.: Proceedings of the International Conference on Silicon Carbide and Related Materials Oct. 14-19, 2007 Otsu, Japan
Dudley: Journal of Crystal Growth Vol. 260 (2004), p. 201 [21] E.
Latu-Romain et al.: Materials Science Forum Vol. 483-485 (2005), p. 225 [23] D.
Mercier et al.: Journal of Crystal Growth Vol. 310 (2008), p. 976 [24] D.
Mercier et al.: Proceedings of the International Conference on Silicon Carbide and Related Materials Oct. 14-19, 2007 Otsu, Japan
Online since: October 2004
Authors: Gregory S. Rohrer, Anthony D. Rollett, Jason Gruber, Denise C. George, Andrew P. Kuprat
Rollett1
1
Department of Materials Science and Engineering, Carnegie Mellon University, 5000 Forbes
Ave., Pittsburgh, PA 15213, USA
2
Los Alamos National Laboratory, Theoretical Division, Group T1, Mail Stop B221, Los Alamos
NM 87545, USA
Keywords: Grain growth, grain boundaries, microstructure, simulation.
Introduction It is well known that the properties and area fractions of various grain boundary types in polycrystals have a dramatic effect on macroscopic materials properties.
There is a clear Journal Title and Volume Number (to be inserted by the publisher) 3 Fig. 1.
Acknowledgment This work was supported by the MRSEC Program of the National Science Foundation under award number DMR-0079996 and by the Computational Materials Science Network Program of the Office of Basic Energy Sciences, Department of Energy.
Wenk, Texture and anisotropy : preferred orientations in polycrystals and their effect on materials properties, New York, Cambridge University Press, 1998
Introduction It is well known that the properties and area fractions of various grain boundary types in polycrystals have a dramatic effect on macroscopic materials properties.
There is a clear Journal Title and Volume Number (to be inserted by the publisher) 3 Fig. 1.
Acknowledgment This work was supported by the MRSEC Program of the National Science Foundation under award number DMR-0079996 and by the Computational Materials Science Network Program of the Office of Basic Energy Sciences, Department of Energy.
Wenk, Texture and anisotropy : preferred orientations in polycrystals and their effect on materials properties, New York, Cambridge University Press, 1998
Online since: December 2011
Authors: Cun Long Zhou, Hai Yan Pan, Yun Wang, Li Dong Ma
Structural design of rail-beam leveler
Lidong Ma1, a, Cunlong Zhou2,b, Haiyan Pan3,c and Yun Wang4,d
1Taiyun University of Science and Technology, Taiyuan,030024,China
2 Taiyun University of Science and Technology, Taiyuan,030024,China
3 Taiyun University of Science and Technology, Taiyuan,030024,China
4 Yanshan University, Qinhuangdao, 066004, China
amald@tyust.edu.cn, bzcl@tyust.edu.cn, cphy@tyust.edu.cn, dwy@ysu.edu.cn
Keywords: rail-beam leveler, explicit nonlinear finite element method, simulation
Abstract.
Leveler has been an indispensable part of the rolling plant, and its application spreads broadly to some plants whose incoming materials mostly compose of sheets, such as automobile factory, shipyard and so on.
So it is correct to choose stronger material as U71Mn whose material parameters’ value will be given as follows: failure stress σS=550MPa; strain deformation rate n=0.8; constant of rate β=0.8; modulus of elasticity E=210,000MPa.
Journal of Materials Engineering and Performance, v 20, n 1, p 40-47
Journal of Reinforced Plastics and Composites. , v 30, n 3, p 229-240, February 2011
Leveler has been an indispensable part of the rolling plant, and its application spreads broadly to some plants whose incoming materials mostly compose of sheets, such as automobile factory, shipyard and so on.
So it is correct to choose stronger material as U71Mn whose material parameters’ value will be given as follows: failure stress σS=550MPa; strain deformation rate n=0.8; constant of rate β=0.8; modulus of elasticity E=210,000MPa.
Journal of Materials Engineering and Performance, v 20, n 1, p 40-47
Journal of Reinforced Plastics and Composites. , v 30, n 3, p 229-240, February 2011
Online since: November 2013
Authors: Aadila Aziz, Mohamad Rusop, Zuraida Khusaimi, R. Mohamed, A.N. Afaah, N.A.M. Asib
Polymer is flexible lightweight materials and can be produced into thin films at a low cost.
Furthermore, the nano ZnO/PMMA composites have potential applications in UV protecting sheets and films, transparent barrier or protective layers, antireflection coatings and as materials with increase thermal stability [11].
Zigon, Sub Micrometer and Nano ZnO as Filler in PMMA Materials.
Wang, Synthesis of transparent ZnO/PMMA nano composite films through free-radical copolymerization of asymmetric zinc methacrylate acetate and in-situ thermal decomposition, Journal of Luminescence. 131 (2011) 1701-1706
Rusop, Photoluminescence and Structural Properties of Gold-Assisted Zinc Oxide Nanorods, Malaysian Journal of Science. 28 (2009) 197-201
Furthermore, the nano ZnO/PMMA composites have potential applications in UV protecting sheets and films, transparent barrier or protective layers, antireflection coatings and as materials with increase thermal stability [11].
Zigon, Sub Micrometer and Nano ZnO as Filler in PMMA Materials.
Wang, Synthesis of transparent ZnO/PMMA nano composite films through free-radical copolymerization of asymmetric zinc methacrylate acetate and in-situ thermal decomposition, Journal of Luminescence. 131 (2011) 1701-1706
Rusop, Photoluminescence and Structural Properties of Gold-Assisted Zinc Oxide Nanorods, Malaysian Journal of Science. 28 (2009) 197-201
Online since: January 2012
Authors: Jing Hua Jiang, Dan Song, Ying Wu, Sheng Hui An, Wu Wen Zhang, Dong Hui Yang, Jian Qing Chen, Aibin Ma
The unique phenomenon contradicts the observation in coarse-grained materials, without similar report in other materials up to now.
Coleto: Materials Science and Technology Vol.16 (2000) , p.743 [2] L.G.
Kilickap and O. akir: Journal of materials processing technology Vol.198 (2008),p. 220 [4] S.
Liao: Nature Materials Vol. 3 (2004), p. 351 [9] A.B.
Vol.51 (2003), p. 2811 [14] J.C.Tan and M.J.Tan: Materials science and engineering A Vol.339(2003),p.81 [15] H.Q.
Coleto: Materials Science and Technology Vol.16 (2000) , p.743 [2] L.G.
Kilickap and O. akir: Journal of materials processing technology Vol.198 (2008),p. 220 [4] S.
Liao: Nature Materials Vol. 3 (2004), p. 351 [9] A.B.
Vol.51 (2003), p. 2811 [14] J.C.Tan and M.J.Tan: Materials science and engineering A Vol.339(2003),p.81 [15] H.Q.
Online since: February 2012
Authors: Yu Zhong Zhang, Hui Ye, Hong Li, Han Li, Li Gang Lin, Xiao Li Ding, Li Zhi Zhao
Investigation of separation of lactose from whey solution by nanofiltration process
Hui Ye a,b, YuZhong Zhang a,b,* , Han Li a,b ,LiGang Lin a,b,
XiaoLi Ding a,b,LiZhi Zhao a,b, Hong Li a,b
a State Key Laboratory of Hollow Fiber Membrane Materials and Processes, Tianjin Polytechnic University, Tianjin 300387, China
b School of Materials Science and Engineering, Tianjin Polytechnic University, Tianjin 300387
* Corresponding author: YuZhong Zhang Email: Zhangyz2004cn@163.com
Key words: lactose, whey, nanofiltration, membrane
Abstract.
Experimental 2.1 Materials and methods Two kinds of model feed, the lactose solution and the whey solution, were investigated in order to compare the characterization of NF performance.
Acknowledgment This research was sponsored by the National Natural Science Foundation of China (Funding No. 50973083, No. 50473025, No. 51173132, No.21006070), the Research Fund for the Doctoral Program of Higher Education (Funding No. 20091201120002), the open project of State Key Laboratory of Hollow Fiber Membrane Materials and Membrane Processes and Tianjin Natural Science Foundation of China (No. 11JCZDJC21200, 11JCZDJC23700).
Mukhtar, Characterization and prediction of separation performance of nanofiltration membranes [J], Journal of Membrane Science, 112 (2) (1996): 263 -274 [6] N.Her, G.
Zadow, Whey and lactose processing, Elsevier Applied Science, New York, 1992
Experimental 2.1 Materials and methods Two kinds of model feed, the lactose solution and the whey solution, were investigated in order to compare the characterization of NF performance.
Acknowledgment This research was sponsored by the National Natural Science Foundation of China (Funding No. 50973083, No. 50473025, No. 51173132, No.21006070), the Research Fund for the Doctoral Program of Higher Education (Funding No. 20091201120002), the open project of State Key Laboratory of Hollow Fiber Membrane Materials and Membrane Processes and Tianjin Natural Science Foundation of China (No. 11JCZDJC21200, 11JCZDJC23700).
Mukhtar, Characterization and prediction of separation performance of nanofiltration membranes [J], Journal of Membrane Science, 112 (2) (1996): 263 -274 [6] N.Her, G.
Zadow, Whey and lactose processing, Elsevier Applied Science, New York, 1992
Online since: July 2011
Authors: Yu Lin Shi, Juan Hua Su, Yan Wei Chen, Yun Yun Chen
J. of Materials Processing Technology Vol. 80-80(1998), p.161
[2] H.D.
J. of Materials Processing Technology Vol.157( 2004), p.496 [3] R.D.
Journal of Materials Processing Technology Vol.57(1996), p.129 [5] Y.L.
Materials Science and Engineering A Vol.384(2004), p.64 [7] H.Y.
Journal of Plasticity Engineering Vol.7(2000),p.58 (in Chinese)
J. of Materials Processing Technology Vol.157( 2004), p.496 [3] R.D.
Journal of Materials Processing Technology Vol.57(1996), p.129 [5] Y.L.
Materials Science and Engineering A Vol.384(2004), p.64 [7] H.Y.
Journal of Plasticity Engineering Vol.7(2000),p.58 (in Chinese)
Online since: September 2013
Authors: Jun Wang, Jing Ming Fan
Abrasive jet micromachining (AJM) is a promising technology for processing brittle materials.
Introduction AJM or Abrasive air jet machining is a highly effective technology for processing brittle materials.
Key Engineering Materials Vol. 359-360 (2008), p. 404-408
Advanced Materials Research Vol. 500 (2012), p. 236-241
IMechE Part C: Journal of Mechanical Engineering Science Vol. 225 (2011), p. 2161-2173.
Introduction AJM or Abrasive air jet machining is a highly effective technology for processing brittle materials.
Key Engineering Materials Vol. 359-360 (2008), p. 404-408
Advanced Materials Research Vol. 500 (2012), p. 236-241
IMechE Part C: Journal of Mechanical Engineering Science Vol. 225 (2011), p. 2161-2173.
Online since: February 2014
Authors: Hong Jun Ni, Yi Pei, Lin Fei Chen, Shuai Shua Lv
An ideal solution is to use high-pressure hydrogen storage combine with hydrogen storage materials in a complex new model, that is, filled lighte material in high-pressure hydrogen storage vessel.
In relevant report, the metal-organic ligand structural materials (MOFs) are good lightweight hydrogen storage materials.
Policy Support for New Energy Automotive Industry Development, J.Journal of Nantong University(Social Sciences Edition),2010,26(04):124-133
[16] Schlapbach L,Zittel A.Hydrogen-storage materials for mobile applications, J.Nature, 2001,414:353-358
Testing and influencing factor for efficiency of vehicular fuel cell, J.Journal of Guangxi University(Natural Science Edition).2010,35(06):989-994.
In relevant report, the metal-organic ligand structural materials (MOFs) are good lightweight hydrogen storage materials.
Policy Support for New Energy Automotive Industry Development, J.Journal of Nantong University(Social Sciences Edition),2010,26(04):124-133
[16] Schlapbach L,Zittel A.Hydrogen-storage materials for mobile applications, J.Nature, 2001,414:353-358
Testing and influencing factor for efficiency of vehicular fuel cell, J.Journal of Guangxi University(Natural Science Edition).2010,35(06):989-994.
Online since: August 2011
Authors: David Nowell, Daniel M. Mulvihill, Mehmet E. Kartal, Dawid A. Hills
The authors [6] investigated the effect of materials (titanium and nickel alloys) and surface roughness on the tangential contact stiffness, as well as on the friction coefficient.
In-line fretting test Material, specimens and test setup.
The material chosen for this work was the Titanium alloy Ti-6Al-4V.
International Journal of Mechanical Sciences, vol. 50 (10-11), pp. 1519-1525
International Journal of Engineering Science, vol. 49 (2), pp. 203-211
In-line fretting test Material, specimens and test setup.
The material chosen for this work was the Titanium alloy Ti-6Al-4V.
International Journal of Mechanical Sciences, vol. 50 (10-11), pp. 1519-1525
International Journal of Engineering Science, vol. 49 (2), pp. 203-211