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Online since: November 2022
Authors: Kevin C. Igwilo, Nnaemeka Uwaezuoke, Victor Okoro, Stanley I. Onwukwe, Kingsley C. Iwuanyanwu, Victor C. Ayogu
African Journal of Environmental Science and Technology, 2015; 9(6): 508-518.
In Materials Science Forum, 2008; 591–593; 487–492.
In Advanced Materials Research, 2007; 18-19: 241–247.
Journal of Minerals and Materials Characterization and Engineering, 2015; 03: 353-361
African Journal of Environmental Science and Technology, 2015; 9 (3): 228-243.
In Materials Science Forum, 2008; 591–593; 487–492.
In Advanced Materials Research, 2007; 18-19: 241–247.
Journal of Minerals and Materials Characterization and Engineering, 2015; 03: 353-361
African Journal of Environmental Science and Technology, 2015; 9 (3): 228-243.
Online since: October 2015
Authors: Derval dos Santos Rosa, José Ricardo Nunes de Macedo
Materials and methods
2.1.
Reviews on Advanced Materials Science. 2012;30(2):166-74
Journal of Applied Polymer Science. 1997;66(4):741-8
Materials Science and Technology Vii. 2013;545:57-62
Journal of Membrane Science. 2012;403:32-40
Reviews on Advanced Materials Science. 2012;30(2):166-74
Journal of Applied Polymer Science. 1997;66(4):741-8
Materials Science and Technology Vii. 2013;545:57-62
Journal of Membrane Science. 2012;403:32-40
Online since: August 2013
Authors: Qing Zhang, Quan An Li, Jun Chen, Xing Yuan Zhang
Materials Science and Engineering A, Vol. 302 (2001), p. 37
[2] A.A.Luo.
Materials Science Forum, Vol. 419-422 (2003), p. 57 [3] D.
Frontier Materials Science of China, Vol. 2 (2008), p. 1 [5] J.L.
Journal of Materials Science, Vol. 43 (2008), p. 6952 [6] M.
Materials Science and Engineering A, Vol. 319-321 (2001), p. 751 [7] M.
Materials Science Forum, Vol. 419-422 (2003), p. 57 [3] D.
Frontier Materials Science of China, Vol. 2 (2008), p. 1 [5] J.L.
Journal of Materials Science, Vol. 43 (2008), p. 6952 [6] M.
Materials Science and Engineering A, Vol. 319-321 (2001), p. 751 [7] M.
Online since: February 2013
Authors: Xue Zhou Li, Chen Yu Wang, Jian Lin Xiao, Yan Guo Qin
Nanophase materials
Nanophase materials are materials that have grain sizes under 100 nanometers.
So Materials science and surface modification technology are becoming increasingly important in the hip prosthesis production.
Journal of Clinical Neuroscience 18 (2011) 391–395
Ceramic materials as bearing surfaces for total hip arthroplasty.
Advanced Nanocomposite Materials for Orthopaedic Applications.
So Materials science and surface modification technology are becoming increasingly important in the hip prosthesis production.
Journal of Clinical Neuroscience 18 (2011) 391–395
Ceramic materials as bearing surfaces for total hip arthroplasty.
Advanced Nanocomposite Materials for Orthopaedic Applications.
Online since: October 2010
Authors: Xiao Nong Cheng, Qiang Liu, Huang Xia Fei
Micro-magnetic field at the surface of surgical materials for biocompatibility improvement
Liu Qianga , Cheng Xiaonongb and Fei Huangxiac
School of Materials Science and Engineering, Jiangsu University, Zhenjiang 212013, PR China
aemail: liuqiang_z@tom.com
bemail: xncheng@ujs.edu.cn
cemail: feihuangxia@163.com
Key words: biomaterials;blood compatibility; micro-magnetic field; TiO2 film
Abstract: TiO2 thin film containing SrFe12O19 powders on the surface of 316L stainless steel and NiTi alloy was prepared through sol-gel method and micro-magnetic field was established by the magnetization process applied on the coating.
Experimental details 2.1 Test materials The test materials are commercially available 316L stainless steel and NiTi alloy (50.8%Ni, 49.2%Ti).
We believe that the micro-magnetic field can reduce or even prevent the contact between Ca2+ and other charged carriers in blood and bio-materials.
It is generally believed that blood compatibility of materials can be improved by a highly polished surface.
Journal of Applied Physics 2000,87(9):6200-6204 [12] M.V.Berry, A.
Experimental details 2.1 Test materials The test materials are commercially available 316L stainless steel and NiTi alloy (50.8%Ni, 49.2%Ti).
We believe that the micro-magnetic field can reduce or even prevent the contact between Ca2+ and other charged carriers in blood and bio-materials.
It is generally believed that blood compatibility of materials can be improved by a highly polished surface.
Journal of Applied Physics 2000,87(9):6200-6204 [12] M.V.Berry, A.
Online since: January 2016
Authors: Jun Shinozuka, Habibah binti Jaharadak
Knowing temperatures at the tool-chip interface is extremely important to optimize the machining condition and to improve the machining performance, furthermore to design high performance materials.
Some additives are contained in novel materials to control the tool wear rate and improve the cutting performance.
Therefore, the indexable insert developed can be utilized for optimizing the cutting condition, improving the cutting performance and designing materials with high-machinability.
Herper, Dirk Biermann, Klaus Pantke, Development of temperature sensor thin films to monitor turning processes, Journal of Materials Processing Technology, Vol. 210 (2010) pp.819–823
[6] Jun Shinozuka, Fabrication of multiple micro-grooves by ultrasonic machining with a tool that laminated thin hard-material and thin soft-material, Advanced Materials Research, 76-78 (2009) pp.577-582
Some additives are contained in novel materials to control the tool wear rate and improve the cutting performance.
Therefore, the indexable insert developed can be utilized for optimizing the cutting condition, improving the cutting performance and designing materials with high-machinability.
Herper, Dirk Biermann, Klaus Pantke, Development of temperature sensor thin films to monitor turning processes, Journal of Materials Processing Technology, Vol. 210 (2010) pp.819–823
[6] Jun Shinozuka, Fabrication of multiple micro-grooves by ultrasonic machining with a tool that laminated thin hard-material and thin soft-material, Advanced Materials Research, 76-78 (2009) pp.577-582
Online since: August 2011
Authors: Zhen Zhe Li, Yun De Shen, Mei Qin Li, Gui Ying Shen, Xiao Qian Wang
But, the temperature difference between surface and center of sheet can not be freely reduced because of low thermal conductivity of sheet materials.
Brogan: Applied Science and Manufacturing Vol. 29 (1998), p. 51
Lee: Journal of the Korean Fiber Society Vol. 28 (1991), p. 707
Wilson: Journal of Non-Newtonian Fluid Mechanics Vol. 147 (2007), p. 79
Lee: Journal of Thermal Science and Technology Vol. 2 (2007), p. 123
Brogan: Applied Science and Manufacturing Vol. 29 (1998), p. 51
Lee: Journal of the Korean Fiber Society Vol. 28 (1991), p. 707
Wilson: Journal of Non-Newtonian Fluid Mechanics Vol. 147 (2007), p. 79
Lee: Journal of Thermal Science and Technology Vol. 2 (2007), p. 123
Online since: January 2022
Authors: Peter Schumacher, Johannes Winklhofer, Wan Qi Jie, Jie Hua Li, Xun Zhang, Stefan Griesebner, Bernd Oberdorfer
Metallurgical and Materials Transactions A. 46(2015)1300-1311
International Journal of Cast Metals Research. 29(2016)158-173
International Materials Reviews. 47 (2002) 49-85
Atkinson, Semisolid processing of metallic materials.
Materials Science and Technology. 26 (2010) 1401-1413.
International Journal of Cast Metals Research. 29(2016)158-173
International Materials Reviews. 47 (2002) 49-85
Atkinson, Semisolid processing of metallic materials.
Materials Science and Technology. 26 (2010) 1401-1413.
Online since: February 2022
Authors: Yuriy Velyaev, Victor N. Vasilets, Andrew Mosunov, Maxim Evstigneev
Pairs of different materials are most suitable for these purposes, for example, metal-ultrahigh molecular weight polyethylene
[13-15].
Goldade, Materials for joint endoprostheses, Tribology and Interface Engineering Series. 50 (2006) 43-73 [8] L.S.
Shi, Niobium carbide (MXene) reduces UHMWPE particle-induced osteolysis, Bioactive Materials. (2021) [18] D.Yang, S.
Zhou, Characterization of alendronate sodium-loaded UHMWPE for anti-osteolysis in orthopedic applications, Materials Science and Engineering: C. 32, 2 (2012) 83-91 [19] R.W.
Takahashi, Vitamin E-stabilized highly crosslinked polyethylenes: The role and effectiveness in total hip arthroplasty, Journal of Orthopaedic Science. 22, 3 (2017) 384–390
Goldade, Materials for joint endoprostheses, Tribology and Interface Engineering Series. 50 (2006) 43-73 [8] L.S.
Shi, Niobium carbide (MXene) reduces UHMWPE particle-induced osteolysis, Bioactive Materials. (2021) [18] D.Yang, S.
Zhou, Characterization of alendronate sodium-loaded UHMWPE for anti-osteolysis in orthopedic applications, Materials Science and Engineering: C. 32, 2 (2012) 83-91 [19] R.W.
Takahashi, Vitamin E-stabilized highly crosslinked polyethylenes: The role and effectiveness in total hip arthroplasty, Journal of Orthopaedic Science. 22, 3 (2017) 384–390
Online since: October 2006
Authors: Eduardo Saiz, Antoni P. Tomsia, Sylvain Deville, J. Russias
Chang, Materials Letters, 2005, 59, 2214
Laurencin, Journal of Biomedical Materials Research, 2001, 58, 295
Bandyopadhyay, Materials Science & Engineering CBiomimetic and Supramolecular Systems, 2003, 23, 611
Nichols, Annual Review of Materials Science, 1992, 22, 121
Yamamuro, Journal of Biomedical Materials Research, 1990, 24, 721
Laurencin, Journal of Biomedical Materials Research, 2001, 58, 295
Bandyopadhyay, Materials Science & Engineering CBiomimetic and Supramolecular Systems, 2003, 23, 611
Nichols, Annual Review of Materials Science, 1992, 22, 121
Yamamuro, Journal of Biomedical Materials Research, 1990, 24, 721