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Online since: August 2019
Authors: Nikola Moravcová, Martin Kuřík, Jana Sobotová
Materials Science and Engineering: A. 2010, 528(2), 589-603.
Materials Science and Engineering: A. 2014, 598, 413-419.
Materials Science and Engineering: A. 2016, 662, 356-362.
Journal of Materials Science and Chemical Engineering. 2015, 03(09), 37-46.
Materials Science and Engineering: A. 2016, 652, 192-204.
Materials Science and Engineering: A. 2014, 598, 413-419.
Materials Science and Engineering: A. 2016, 662, 356-362.
Journal of Materials Science and Chemical Engineering. 2015, 03(09), 37-46.
Materials Science and Engineering: A. 2016, 652, 192-204.
Online since: October 2012
Authors: Bin Li, Hong Wang
As for capabilities, especially fatigue resistance, titanium alloy is better than other materials.
Titanium and its alloys are utilized in aero-engine and airframe manufacture because of their outstanding strength to density ratios relative to other materials.
In addition the susceptibility of titanium to work-harden during machining impair their machining ability, hence they are referred to as difficult-to-machine materials.
Acknowledgements The work described in this paper is supported by the National Natural Science Foundation of China (No. 51105188), the Natural Science Foundation of Education Department of Henan Province (No. 12B460016), and the Development Program for science and technology of Luoyang.
Bäker: Journal Of Materials Processing Technology Vol. 167 (2005), p. 1-13
Titanium and its alloys are utilized in aero-engine and airframe manufacture because of their outstanding strength to density ratios relative to other materials.
In addition the susceptibility of titanium to work-harden during machining impair their machining ability, hence they are referred to as difficult-to-machine materials.
Acknowledgements The work described in this paper is supported by the National Natural Science Foundation of China (No. 51105188), the Natural Science Foundation of Education Department of Henan Province (No. 12B460016), and the Development Program for science and technology of Luoyang.
Bäker: Journal Of Materials Processing Technology Vol. 167 (2005), p. 1-13
Online since: June 2015
Authors: R. Ramakrishnan, K.R. Padmavathi, K. Palani Kumar
They must be looked upon as materials for energy conservation and environmental protection [28].
Conclusion · The powder metallurgy technique is well preferred for fabrication of nanocomposite materials.
Siddhartha Das, A review on the synthesis of in situ aluminum based composites by thermal, mechanical and mechanical–thermal activation of chemical reactions, Journal of Material Science (2007) 42:9366–9378 [3] N.K.
Shahverdi, Microstructure study on Al-5%SiC nanocomposite powders, Iranian Journal of Materials Science & Engineering Vol. 8, Number 1, Winter 2011 [14] Heekyu Choi, Lin Wang, Dongkeun Cheon, Woong Lee, Preparation by mechanical alloying of Al powders with single, double, and multi-walled carbon nanotubes for carbon/metal nanocomposites, Composites Science and Technology, 74 (2013) 91–98 [15] Z.Y.Liu, S.J.Xu, B.L.Xiao, P.Xue, W.G.Wang, Z.Y.Ma, Effect of ball-milling time on mechanical properties of carbon nanotubes reinforced aluminium matrix composites, Composites: Part A 43 (2012) 2161-2168 [16] Naiqin Zhaoa, Philip Nashb, Xianjin Yang, The effect of mechanical alloying on SiC distribution and the properties of 6061 aluminum composite, Journal of Materials Processing Technology, 170 (2005) 586–592 [17] A.J.
Dinesh, Novel technique for fabrication of Aluminum6061 – MWCNT (multi-walled carbon nano tube) metal matrix composites, ARPN Journal of Engineering and Applied Sciences, vol. 8, no.3, march 2013 [19] T.
Conclusion · The powder metallurgy technique is well preferred for fabrication of nanocomposite materials.
Siddhartha Das, A review on the synthesis of in situ aluminum based composites by thermal, mechanical and mechanical–thermal activation of chemical reactions, Journal of Material Science (2007) 42:9366–9378 [3] N.K.
Shahverdi, Microstructure study on Al-5%SiC nanocomposite powders, Iranian Journal of Materials Science & Engineering Vol. 8, Number 1, Winter 2011 [14] Heekyu Choi, Lin Wang, Dongkeun Cheon, Woong Lee, Preparation by mechanical alloying of Al powders with single, double, and multi-walled carbon nanotubes for carbon/metal nanocomposites, Composites Science and Technology, 74 (2013) 91–98 [15] Z.Y.Liu, S.J.Xu, B.L.Xiao, P.Xue, W.G.Wang, Z.Y.Ma, Effect of ball-milling time on mechanical properties of carbon nanotubes reinforced aluminium matrix composites, Composites: Part A 43 (2012) 2161-2168 [16] Naiqin Zhaoa, Philip Nashb, Xianjin Yang, The effect of mechanical alloying on SiC distribution and the properties of 6061 aluminum composite, Journal of Materials Processing Technology, 170 (2005) 586–592 [17] A.J.
Dinesh, Novel technique for fabrication of Aluminum6061 – MWCNT (multi-walled carbon nano tube) metal matrix composites, ARPN Journal of Engineering and Applied Sciences, vol. 8, no.3, march 2013 [19] T.
Online since: February 2024
Authors: Patrick Ehi Imoisili, Tien Chien Jen
Journal of Composites Science, 5(7) (2021) 175
Journal of Materials Research and Technology. 9(4) (2020) 8705–8713
Journal of Materials Research and Technology. 9(3), (2020). 4933-4939
European Journal of Material Science, 8(1) (2021) 47-60
Journal of Composite Materials, 14(2) (1980) 142-154
Journal of Materials Research and Technology. 9(4) (2020) 8705–8713
Journal of Materials Research and Technology. 9(3), (2020). 4933-4939
European Journal of Material Science, 8(1) (2021) 47-60
Journal of Composite Materials, 14(2) (1980) 142-154
Online since: December 2013
Authors: A. Mimi Mazira, M.T. Ramlah, A. Sharifah, Nor Munirah Abdullah
Normally, ultrafiltration membranes are made from polymeric materials and some type may be prepared by using an inorganic materials [3].
In this study, cellulose acetate will be used as one of the materials in membrane fabrication.
Cellulose acetate hollow fiber ultrafiltration membranes made from CA/PVP 360 K/NMP/water, Journal of Membrane Science, 218, 173-183
Preparation characterization and performance studies of ultrafiltration membranes with polymeric additive, Journal of Membrane Science, 350, 130-138
Preparation, morphologies and properties for flat sheet PPESK ultrafiltration membranes, Journal of Membrane Science, 270, 146-153
In this study, cellulose acetate will be used as one of the materials in membrane fabrication.
Cellulose acetate hollow fiber ultrafiltration membranes made from CA/PVP 360 K/NMP/water, Journal of Membrane Science, 218, 173-183
Preparation characterization and performance studies of ultrafiltration membranes with polymeric additive, Journal of Membrane Science, 350, 130-138
Preparation, morphologies and properties for flat sheet PPESK ultrafiltration membranes, Journal of Membrane Science, 270, 146-153
Online since: September 2013
Authors: Chen Fu, Chun Cao, Chun Dong Zhu
Numerical Simulation and Process Optimization of Automotive Friction Materials in Warm Pressing Forming
Chun Cao1,a, Chundong Zhu2,band Chen Fu3,c
1, 2,3School of Materials Science and Engineering, Wuhan University of Technology, Wuhan, Hubei, 430070, China
aWoshi008534@163.com, bZcdzcd6252@sina.com, cfuchen19881111@126.com
Keywords: finite element, friction plates, temperature field, process optimization
Abstract.
In order to more energy saving, a layer of insulation materials were added on the back of the mold.
Simultaneously, insulation materials thermal conductivity varies linearly with the heat dissipation, as shown in Fig.6 (b), so the smaller the conductivity of insulation materials, the less heat being lost.
Advanced Materials Research Vols. 655-657 (2013), pp. 277-280
International Journal for Numerical Methods in Engineering Vol. 60(2004), pp. 103–138.
In order to more energy saving, a layer of insulation materials were added on the back of the mold.
Simultaneously, insulation materials thermal conductivity varies linearly with the heat dissipation, as shown in Fig.6 (b), so the smaller the conductivity of insulation materials, the less heat being lost.
Advanced Materials Research Vols. 655-657 (2013), pp. 277-280
International Journal for Numerical Methods in Engineering Vol. 60(2004), pp. 103–138.
Online since: January 2012
Authors: Hamid Reza Rezaie, Hekmat Razavizadeh, R. Roohibakhsh
Copper and nickel sulfate and sodium hydroxide were used as raw materials.
Klabunde, “Nanoscale Materials in Chemistry”, 2001 [2] J.Zh.
Ramachandrarao, Synthesis of Nanosized Copper Powder by an Aqueous Route, Journal of Materials Synthesis and Processing 7 (1999) 373-377
Shen, Synthesis of Copper Nanoparticles in Nonionic Water-in-Oil Microemulsions, Journal of Colloid and Interface Science 186 (1997) 498-500
Min, Preparation of Ultrafine Nickel Powder by Polyol Method and its Oxidation Product, Materials Science and Engineering B 122 (2005) 222–225
Klabunde, “Nanoscale Materials in Chemistry”, 2001 [2] J.Zh.
Ramachandrarao, Synthesis of Nanosized Copper Powder by an Aqueous Route, Journal of Materials Synthesis and Processing 7 (1999) 373-377
Shen, Synthesis of Copper Nanoparticles in Nonionic Water-in-Oil Microemulsions, Journal of Colloid and Interface Science 186 (1997) 498-500
Min, Preparation of Ultrafine Nickel Powder by Polyol Method and its Oxidation Product, Materials Science and Engineering B 122 (2005) 222–225
Online since: September 2012
Authors: Jin Chen, Xiao Gang Wang, Ai Xia Guo, Lei Tang, Min Zhang
New materials, 2003,5: 60-62
[4] LO T Y,CUI H Z.Materials Letters, 2004, 58(6): 916-919
[5] Xin X G, Xu Z Z, Journal of Building Materials, 2010,1: 86-89
[6] Huang X H, Cao X F, et al, Journal of Wuhan University of Science and Technology [7] Li Y, HU Yanpin g, HU Chunjing.
Advanced Materials Research, 2008, 33: 553-558.
[4] LO T Y,CUI H Z.Materials Letters, 2004, 58(6): 916-919
[5] Xin X G, Xu Z Z, Journal of Building Materials, 2010,1: 86-89
[6] Huang X H, Cao X F, et al, Journal of Wuhan University of Science and Technology [7] Li Y, HU Yanpin g, HU Chunjing.
Advanced Materials Research, 2008, 33: 553-558.
Online since: December 2010
Authors: Xin You Huang, Chun Hua Gao, Min Xian Wei, Zhi Gang Chen
Xu: Electronic components and Materials(in chin.)
Chen: Journal of Materials(in chin.)
Xiang: Journal of Inorganic materials (in chin .)
Tian : Journal of Shanxi Normal University (Natural Science Edition) (in chin.)
Zhang: Journal of Shanxi Normal University (Natural Science Edition) (in chin.)
Chen: Journal of Materials(in chin.)
Xiang: Journal of Inorganic materials (in chin .)
Tian : Journal of Shanxi Normal University (Natural Science Edition) (in chin.)
Zhang: Journal of Shanxi Normal University (Natural Science Edition) (in chin.)
Online since: June 2014
Authors: Guy Littlefair, K. Praveen Kumar, Ashwin Polishetty
References
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Gogia, “Ti based biomaterials, the ultimate choice for orthopaedic implants”, Progress in material science, 2009
Rack, “Titanium alloys in total joint replacement- a material science perspective”, Biomaterials, 1998
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Gogia, “Ti based biomaterials, the ultimate choice for orthopaedic implants”, Progress in material science, 2009
Rack, “Titanium alloys in total joint replacement- a material science perspective”, Biomaterials, 1998
[5] H.J.Rack, J.I.Qazi, “Titanium alloys for biomedical application”, Material science and engineering, 2005
[7] Tengvall P, Lundstrom I (1992), “Physico chemical consideration of titanium as a biomaterial, Clin materials”, vol-9: 115-134