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Online since: December 2012
Authors: Yong Ling Li, Ying Shu Liu, Xiong Yang
Effect of Activated Carbon Materials’ Surface Texture Parameters on Separation Factor for Coal Mine Methane
Xiong Yanga, Yingshu Liub and Yongling Lic
Beijing Key Laboratory for Energy Saving and Emission Reduction of Metallurgical Industry, University of Science and Technology Beijing,Beijing, China
ayangxiong025688@yahoo.com.cn, bysliu@ustb.edu.cn, cyl_li03@me.ustb.edu.cn
Keywords: Active carbon; Methane; Adsorption; Coal mine methane; Pore size; Separation Factor
Abstract: Nine types of active carbon materials’ adsorption isotherm of nitrogen at 77K were measured, and their surface texture parameters were calculated out.
Procedia Earth and Planetary Science, Vol.1, Sep.2009, pp. 94-99 [2] M.
Journal of china Coal sociaty, vol.35(2010),p.987 [4] A.
Chemical Engineering Science, Vol.59(2004), P.2407 [5] Y Zou, Z L Wu; S X Lu.
Influence of pore geometry on the design of microporous materials for methane storage .
Procedia Earth and Planetary Science, Vol.1, Sep.2009, pp. 94-99 [2] M.
Journal of china Coal sociaty, vol.35(2010),p.987 [4] A.
Chemical Engineering Science, Vol.59(2004), P.2407 [5] Y Zou, Z L Wu; S X Lu.
Influence of pore geometry on the design of microporous materials for methane storage .
Online since: September 2013
Authors: J.X. Xue, L.L. An, Q.P. Sun
Swain: Journal of Materials Science 10(1)(1975)113–122
[3] S.
Waida: Journal of Materials Processing Technology. 48(1-4)(1995) 267–274 [11] Information on http://www.winterthurusa.net [12] C.
Cai: Key Engineering Materials. 259-260(2004) 244–248 [20] Z.B.
Holl: Journal of Materials Processing Technology. 62(4)(1996) 287–293 [25] R.
Takahashi: Journal of Materials Processing Technology. 66(1-3)(1997)18–24 [29] Y.
Waida: Journal of Materials Processing Technology. 48(1-4)(1995) 267–274 [11] Information on http://www.winterthurusa.net [12] C.
Cai: Key Engineering Materials. 259-260(2004) 244–248 [20] Z.B.
Holl: Journal of Materials Processing Technology. 62(4)(1996) 287–293 [25] R.
Takahashi: Journal of Materials Processing Technology. 66(1-3)(1997)18–24 [29] Y.
Online since: May 2020
Authors: Fan Chen, Mustafa Hasan Balci, Xu Yuan Chen, Muhammad Nadeem Akram, He Xin Xia
Optical Materials 35.2 (2012): 263-267
Materials Research Bulletin 53 (2014): 49-53
Journal of Materials Science: Materials in Electronics 26.9 (2015): 7290-7294
Journal of Materials Science: Materials in Electronics 28.5 (2017): 4409-4413
Materials Letters 188 (2017): 119-122
Materials Research Bulletin 53 (2014): 49-53
Journal of Materials Science: Materials in Electronics 26.9 (2015): 7290-7294
Journal of Materials Science: Materials in Electronics 28.5 (2017): 4409-4413
Materials Letters 188 (2017): 119-122
Online since: May 2011
Authors: Qing Zhu Zeng, Ru Qiang Huang, Niang Hui Li, Qian Deng, Bin Chen
The oyster shell was a common sort of marine shellfish, and its meat and shell serve as traditional medicinal materials.
Up till now, antihypertensive peptide has been developed from food raw materials by researchers in oversea, such as milk protein, soybean and soybean fermented food, grain, corn protein, collagen, fish meat, garlic, lees, etc.
Materials and Methods materials raw material Oyster produced in Yangjiang was purchased in Guangzhou.
Journal of South China University of Technology (Natural Science Edition), 2005(10):90 [3] Zhao Hai-zhen, Lu Zhao-xin, Liu Zhan-min.
Chinese Journal of Nature, 1998(6):322~355 [5] Li Xu-e.
Up till now, antihypertensive peptide has been developed from food raw materials by researchers in oversea, such as milk protein, soybean and soybean fermented food, grain, corn protein, collagen, fish meat, garlic, lees, etc.
Materials and Methods materials raw material Oyster produced in Yangjiang was purchased in Guangzhou.
Journal of South China University of Technology (Natural Science Edition), 2005(10):90 [3] Zhao Hai-zhen, Lu Zhao-xin, Liu Zhan-min.
Chinese Journal of Nature, 1998(6):322~355 [5] Li Xu-e.
Online since: March 2022
Authors: Mahesh K. Babrekar, Chandrashekhar M. Kale
Journal of Materials Science: Materials in Electronics, 2020. 31: p. 11352-11365
Journal of Magnetism and Magnetic Materials, 2000. 215: p. 171-183
Journal of Materials Science: Materials in Electronics, 2016. 27(4): p. 3109-3144
Journal of Science: Advanced Materials and Devices, 2018. 3(2): p. 145-150
Advanced materials, 2011. 23(9): p. 1062-1087
Journal of Magnetism and Magnetic Materials, 2000. 215: p. 171-183
Journal of Materials Science: Materials in Electronics, 2016. 27(4): p. 3109-3144
Journal of Science: Advanced Materials and Devices, 2018. 3(2): p. 145-150
Advanced materials, 2011. 23(9): p. 1062-1087
Online since: November 2011
Authors: Gurmeet Singh, Kulwant Singh, Jagtar Singh
Jung: Materials Science and Engineering A Vol. 355 (2003), p. 154
Panella: Journal of Materials Processing Technology Vol. 180 (2006), p. 263
Mishra and Z.Y Ma: Journal of Material Science and Engineering Vol. 50 (2005), p. 1
Fratini: Materials Science and Engineering A, Vol. 419 (2006), p. 381
Kailas: Materials Science and Engineering A, Vol. 485 (2008), p. 367
Panella: Journal of Materials Processing Technology Vol. 180 (2006), p. 263
Mishra and Z.Y Ma: Journal of Material Science and Engineering Vol. 50 (2005), p. 1
Fratini: Materials Science and Engineering A, Vol. 419 (2006), p. 381
Kailas: Materials Science and Engineering A, Vol. 485 (2008), p. 367
Online since: September 2015
Authors: Tsung Chia Chen, Ming Long Xu
Makinouchi, Shell-Element Formulation in the Static Explicit FEM Code for the Simulation of Sheet Stamping, Journal of Materials Processing Technology 50 (1995) 105-115
Leu, Finite-element simulation of the lateral compression of aluminium tube between rigid piates, International Journal of Mechanical Sciences 41 (1999) 621-638
Chien, Influence of the punch profile the limitation of formability in the hole-flange process, Journal of Materials Processing Technology 113 (1999) 720-724
Kang, Finite Element Investigation on Spring-Back Characteristics in Sheet Metal U-Bending Process, Journal of Materials Processing Technology 141 (2003) 109-116
Antonio, Optimal Design of V and U Bending Processes Using Genetic Algorithms, Journal of Materials Processing Technology 172 (2006) 35-41
Leu, Finite-element simulation of the lateral compression of aluminium tube between rigid piates, International Journal of Mechanical Sciences 41 (1999) 621-638
Chien, Influence of the punch profile the limitation of formability in the hole-flange process, Journal of Materials Processing Technology 113 (1999) 720-724
Kang, Finite Element Investigation on Spring-Back Characteristics in Sheet Metal U-Bending Process, Journal of Materials Processing Technology 141 (2003) 109-116
Antonio, Optimal Design of V and U Bending Processes Using Genetic Algorithms, Journal of Materials Processing Technology 172 (2006) 35-41
Online since: February 2011
Authors: Guang Hui Qing, Liang Wang, Li Zhong Shi
One of advantages by the state space approach to handle the laminated plates/shells is that the varying material, geometric properties along the independent spatial variable, complex load and anisotropic layered materials are allowed.
For the isotropic or orthotropic elasticity material , ,
Acknowledgments This work was supported by the Natural Science Foundation of China (Grant No. 60979001) and the Natural Science Foundation of Civil Aviation University of China (Grant No.
Symplectic system of applied mechanics (in Chinese), Science Press, Beijing(2003) [6] TC Ting.
International Journal of Mechanical Sciences, Vol.50(2008), p.83 [21] GP Zou, LM Tang.
For the isotropic or orthotropic elasticity material , ,
Acknowledgments This work was supported by the Natural Science Foundation of China (Grant No. 60979001) and the Natural Science Foundation of Civil Aviation University of China (Grant No.
Symplectic system of applied mechanics (in Chinese), Science Press, Beijing(2003) [6] TC Ting.
International Journal of Mechanical Sciences, Vol.50(2008), p.83 [21] GP Zou, LM Tang.
Online since: June 2016
Authors: Tutik Sriani, Gunawan Setia Prihandana, Martin Andre Setyawan
The electropolishing method removes material based on electrolysis process, in which material removal is done through electrical current which trigger material removal by chemical reactions.
Electropolishing is a safe and environmental friendly process for polishing and machining of metallic materials, since it uses non-toxic chemical solution and requires small energy.
Study of the chemical behavior of niobium polishing, Applied Surface Science 227, p. 17
General Relationship for the Thermal Oxidation of Silicon, Journal of Applied Physics 36, p. 3770
Chemical polish for niobium microwave structures, Journal of Applied Physics 41, p. 828
Electropolishing is a safe and environmental friendly process for polishing and machining of metallic materials, since it uses non-toxic chemical solution and requires small energy.
Study of the chemical behavior of niobium polishing, Applied Surface Science 227, p. 17
General Relationship for the Thermal Oxidation of Silicon, Journal of Applied Physics 36, p. 3770
Chemical polish for niobium microwave structures, Journal of Applied Physics 41, p. 828
Online since: February 2012
Authors: Hui Chen, Guo Qing Gou, Yan Liu, Yu Chen, Da Li, Hua Ji, Gui Guo Wang
Analysis of crack on rail web after flash welding
Da Li1, a, Guiguo Wang2,b, Yu Chen3,c, Guoqing Gou1,d, Yan Liu1,e, Hua Ji1,f,
Hui Chen1,g*
1School of Materials Science and Engineering, Southwest Jiaotong University, Chengdu 610031, China
2CNR Tangshan Railway Vehicle Co., Ltd.
Experimental materials and methods A failure U71Mn steel was selected to analysis, whose composition is listed in Table1.
Materials & Design, 2012, 33:175-184
Journal of materials science, 2001, 36:389-397
Journal of Materials Engineering and Performance, 2000, 9(6):700-709
Experimental materials and methods A failure U71Mn steel was selected to analysis, whose composition is listed in Table1.
Materials & Design, 2012, 33:175-184
Journal of materials science, 2001, 36:389-397
Journal of Materials Engineering and Performance, 2000, 9(6):700-709