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Online since: June 2011
Authors: Roshasnorlyza Hazan, Srimala Sreekantan, Adilah Abdul Khalil, Ira Maya Sophia Nordin, Ishak Mat
Schmuki, Hydroxyapatite growth on anodic TiO2 nanotubes, Journal of Biomedical Materials Research Part A, Vol. 77A (2006) 534-541
Zhang, Surface characterization of titanium and adsorption of bovine serum albumin, Journal of Materials Characterization, Vol. 49 (2002) 129-137
Correia, Titanium scaffolds for osteointegration: mechanical, in vitro and corrosion behaviour, Journal of Material Science: Material Medical, Vol. 19 (2008) 451-457
Mabuchi, Processing and mechanical properties of autogenous titanium implants materials, Journal of Materials Science: Materials in Medicine, Vol. 13 (2002) 397-401
Chou, A novel bioactive porous CaSiO3 scaffold for bone tissue engineering, Journal of Biomedical Materials Research Part A, Vol. 76A (2006) 196–205
Zhang, Surface characterization of titanium and adsorption of bovine serum albumin, Journal of Materials Characterization, Vol. 49 (2002) 129-137
Correia, Titanium scaffolds for osteointegration: mechanical, in vitro and corrosion behaviour, Journal of Material Science: Material Medical, Vol. 19 (2008) 451-457
Mabuchi, Processing and mechanical properties of autogenous titanium implants materials, Journal of Materials Science: Materials in Medicine, Vol. 13 (2002) 397-401
Chou, A novel bioactive porous CaSiO3 scaffold for bone tissue engineering, Journal of Biomedical Materials Research Part A, Vol. 76A (2006) 196–205
Online since: December 2013
Authors: Bo Rong Wu, Feng Wu, Fei Yu, Hong Liang Xu
Theelectrochemical properties of materials with the specific morphology were significantly improved.
Among them, Li[Li0.2Mn0.54Ni0.13Co0.13]O2, which can be rewrittenin two-part notation as 0.5Li2MnO3·0.5LiNi1/3Co1/3Mn1/3O2,receivesfocus as one of the most promising materials for lithium ion batteries[6].
Electrospinning has the unique capability to generatenanofibers of many materials with high specific surfacearea[10].
Tang: Journal of Power Sources.
Alamgir: Materials Science and Engineering.Vol.72 (2011), pp.203-252 [8]Y.
Among them, Li[Li0.2Mn0.54Ni0.13Co0.13]O2, which can be rewrittenin two-part notation as 0.5Li2MnO3·0.5LiNi1/3Co1/3Mn1/3O2,receivesfocus as one of the most promising materials for lithium ion batteries[6].
Electrospinning has the unique capability to generatenanofibers of many materials with high specific surfacearea[10].
Tang: Journal of Power Sources.
Alamgir: Materials Science and Engineering.Vol.72 (2011), pp.203-252 [8]Y.
Online since: October 2016
Authors: Hua Guo, Yang Huang, Feng Jiang, Lan Yan
This technology has a great prospect in the field of materials processing.
Retained austenite in high speed steel cutting tool materials could be transformed into martensite in the magnetic field, which could improve the toughness of the cutting tool materials [16].
Journal of Materials Processing Technology. 121(2002)243-251
Journal of National University of Defense Technology. 33(2011)100-104 [7] Zhong Minlin, Liu Wenjin, Leading Areas and Hot Topics on Global Laser Materials Processing Research, J.
Experiment Science and Technology. 6(2008)10-12 [10]Xue Miao, The Research on Application of Giant Magnetostrictive Materials in Transducer, D.
Retained austenite in high speed steel cutting tool materials could be transformed into martensite in the magnetic field, which could improve the toughness of the cutting tool materials [16].
Journal of Materials Processing Technology. 121(2002)243-251
Journal of National University of Defense Technology. 33(2011)100-104 [7] Zhong Minlin, Liu Wenjin, Leading Areas and Hot Topics on Global Laser Materials Processing Research, J.
Experiment Science and Technology. 6(2008)10-12 [10]Xue Miao, The Research on Application of Giant Magnetostrictive Materials in Transducer, D.
Online since: September 2011
Authors: Sha Sha Guo, Xiang Yu Jin, Hong Wang, Qin Fei Ke
Materials and methods
2.1 Materials
PET pellets used to produce electrospinning nanofiber mat were purchased from Sinopec Yizheng Chemical Fibre Company Limited.
China, 111 Project B07024 “Biomedical Textile Materials Science and Technology”.
Journal of Applied Polymer Science. 2006:102(2): 1285-1290
Journal of Membrane Science. 2006.281:581-586 [5].
Journal of Polymer Science: Part B: Polymer Physics, 2008,10:460-471 [6].
China, 111 Project B07024 “Biomedical Textile Materials Science and Technology”.
Journal of Applied Polymer Science. 2006:102(2): 1285-1290
Journal of Membrane Science. 2006.281:581-586 [5].
Journal of Polymer Science: Part B: Polymer Physics, 2008,10:460-471 [6].
Online since: June 2012
Authors: Michael Eisterer, Jacques G. Noudem, Tatiana Prikhna, Xavier Chaud, Alexander Soldatov, Harald W. Weber, Vladimir Sokolovsky, Friedrich Karau, Istvan Vajda, Tobias Habisreuther, Jan Dellith, Christa Schmidt, Doris Litzkendorf, Athanasios G. Mamalis, Wolfgang Gawalek, Yaroslav Savchuk, Viktor Moshchil, Sergey Dub, Shu Jie You, Ulrich Dittrich, Nina Sergienko, Vladimir Sverdun, Roman Kuznietsov
SPS-manufactured in- situ MgB2-based materials usually have somewhat higher jc than sintered ex-situ.
Cao, Materials Science and Engineering R Vol. 63, (2009), p. 127
Xu, Journal of Applied Physics Vol. 93, (2003), p. 6208
Gawalek, et al., Materials Science Forum Vol. 670. (2011), p. 21-27
Gawalek, et al., Advances in Science and Technology Vol. 75 (2010), p. 161.
Cao, Materials Science and Engineering R Vol. 63, (2009), p. 127
Xu, Journal of Applied Physics Vol. 93, (2003), p. 6208
Gawalek, et al., Materials Science Forum Vol. 670. (2011), p. 21-27
Gawalek, et al., Advances in Science and Technology Vol. 75 (2010), p. 161.
Online since: December 2012
Authors: Ying Xiong, Li Xia Cheng
Threrfore, the three-parameter equation’s successful prediction on these materials indicate that the approach can be extended more other materials.
Brown, Journal of Engineering Materials and Technology, 118(1996) ,367-370 [5] A.
Topper, Journal of Materials, 5(1970),767-78 [7] K.C.
Jiang, Materials science and Engineering, 546 (2012), 119-128 [13] Q.
Jiang, Journal of Engineering Materials and Technilogy, 130 (2008) :0.1013-1-12 [16]Y.
Brown, Journal of Engineering Materials and Technology, 118(1996) ,367-370 [5] A.
Topper, Journal of Materials, 5(1970),767-78 [7] K.C.
Jiang, Materials science and Engineering, 546 (2012), 119-128 [13] Q.
Jiang, Journal of Engineering Materials and Technilogy, 130 (2008) :0.1013-1-12 [16]Y.
Online since: December 2014
Authors: Chen Guang Zuo, Xue Li Feng, Yang Yang, Kai Xuan Zhou, Xiangchun Liu
Binder: Dental Materials, Vol. 23 (2007) No.7, p.785
Wang: Electronic Components and Materials, Vol. 24 (2005) No.10, p.50
Tian: Materials Science Forum, Vols. 546-549 (2007) No.1, p.2215
Callister: Fundamentals of Materials Science and Engineering (Chemical Industry Press, China 2004)
Meng: Journal of Materials Science Letter, Vol. 33 (1998) No.4, p.1023.
Wang: Electronic Components and Materials, Vol. 24 (2005) No.10, p.50
Tian: Materials Science Forum, Vols. 546-549 (2007) No.1, p.2215
Callister: Fundamentals of Materials Science and Engineering (Chemical Industry Press, China 2004)
Meng: Journal of Materials Science Letter, Vol. 33 (1998) No.4, p.1023.
Online since: May 2011
Authors: Bao Min Wang, Kai Song
References
[1] Lijiu Wang, Haiyan Zhan and Zhengyue Ren: New construction materials Vol.3 (2003),p.10-11,
in Chinese
[2] Lijiu Wang, Liu Xianfu: Housing materials and applications Vol.27 (1999), p. 20-22,in Chinese
Malone: High-Performance Materials and Systems Research Program.
[10] A.K.Suryavanshi: Cement and Concrete Research Vol.27 (1997), p.1047-1060 [11] Lijiu Wang, Guofan Zhao: Building materials journal Vol. 3 (2000), p.98-102,in Chinese
[21] Zhaohui Luo, Jingling Li and Yupei Zhang: Journal of Guangxi University: Natural Sciences version.
[2] Lijiu Wang, Liu Xianfu: Housing materials and applications Vol.27 (1999), p. 20-22,in Chinese
Malone: High-Performance Materials and Systems Research Program.
[10] A.K.Suryavanshi: Cement and Concrete Research Vol.27 (1997), p.1047-1060 [11] Lijiu Wang, Guofan Zhao: Building materials journal Vol. 3 (2000), p.98-102,in Chinese
[21] Zhaohui Luo, Jingling Li and Yupei Zhang: Journal of Guangxi University: Natural Sciences version.
Online since: January 2012
Authors: Somasundaram Saravanan, K. Raghukandan
References
[1] S.Saravanan, K.Raghukandan, weldability windows for dissimilar metals cladding using explosives, Theory and practice of Energetic Materials, Vol VIII,(2009) pp 585-589
[2] B.Crossland, “Explosive welding of metals and its applications” Oxford university press (1982)
The microstructure of explosive welded joint sand their mechanical properties J Mater Science (2010) [7] Vi.
Kuz'min, Vi.Liysak ,An.Kriventsov and Mayakovlev, Critical conditions of the formation and failure of welded joints in explosive welding Welding International 2004 18 (3) 223–227 [8] Jun Hyun Han, Jae Pyoung Ahn, Myung Chul Shin journal of materials science 38 (2003) 13– 18 [9] J.G Banker National Association of Corrosion Engineers, NACE Paper 03459(2003) [10] P.Manikandan, K.Hokamoto, M.Fujita, K.Raghukandan, R.Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel journal of materials processing technology 195 (2008) 232–240
[11] S.Saravanan, K.Raghukandan Energy Dissipation in Explosive Welding of Dissimilar Metals Material Science Forum Vol. 673 (2011) pp 125-129 [12] P.V.Vaidyanathan and Ar.Ramanathan, Computer aided design of explosive welding systems J.
Raghukandan “Analysis of the explosive cladding of cu–low carbon steel plates” Journal of Materials Processing Technology 139 (2003) 573–577
The microstructure of explosive welded joint sand their mechanical properties J Mater Science (2010) [7] Vi.
Kuz'min, Vi.Liysak ,An.Kriventsov and Mayakovlev, Critical conditions of the formation and failure of welded joints in explosive welding Welding International 2004 18 (3) 223–227 [8] Jun Hyun Han, Jae Pyoung Ahn, Myung Chul Shin journal of materials science 38 (2003) 13– 18 [9] J.G Banker National Association of Corrosion Engineers, NACE Paper 03459(2003) [10] P.Manikandan, K.Hokamoto, M.Fujita, K.Raghukandan, R.Tomoshige, Control of energetic conditions by employing interlayer of different thickness for explosive welding of titanium/304 stainless steel journal of materials processing technology 195 (2008) 232–240
[11] S.Saravanan, K.Raghukandan Energy Dissipation in Explosive Welding of Dissimilar Metals Material Science Forum Vol. 673 (2011) pp 125-129 [12] P.V.Vaidyanathan and Ar.Ramanathan, Computer aided design of explosive welding systems J.
Raghukandan “Analysis of the explosive cladding of cu–low carbon steel plates” Journal of Materials Processing Technology 139 (2003) 573–577
Online since: August 2017
Authors: Paras Ram, Vimal Kumar Joshi, Anil Kumar, Oluwole Daniel Makinde, Punit Kumar
Ram, On the low-Reynolds number magnetic fluid flow in a helical pipe, International Journal of Engineering Science 31.2 (1993) 229-239
Shah, Ferrofluid based secant shaped slider bearing, The South Pacific Journal of Natural and Applied Sciences 22.1 (2004) 28-31
Ahmad, Analysis of a porous-inclined slider bearing lubricated with magnetic fluid considering thermal effects with slip velocity, Journal of the Brazilian Society of Mechanical Sciences and Engineering 33.3 (2011) 351-356
Bou-Saïd, Static characteristics of ferrofluid finite journal bearing considering rotational viscosity effect, Lubrication Science 29.4 (2017) 203-226
Bou-Saïd, Ferrofluid lubrication of finite journal bearings using Jenkins model, Lubrication Science (2017) doi: 10.1002/ls.1379.
Shah, Ferrofluid based secant shaped slider bearing, The South Pacific Journal of Natural and Applied Sciences 22.1 (2004) 28-31
Ahmad, Analysis of a porous-inclined slider bearing lubricated with magnetic fluid considering thermal effects with slip velocity, Journal of the Brazilian Society of Mechanical Sciences and Engineering 33.3 (2011) 351-356
Bou-Saïd, Static characteristics of ferrofluid finite journal bearing considering rotational viscosity effect, Lubrication Science 29.4 (2017) 203-226
Bou-Saïd, Ferrofluid lubrication of finite journal bearings using Jenkins model, Lubrication Science (2017) doi: 10.1002/ls.1379.