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Online since: June 2014
Authors: Xiao Zhen Liu, Jie Chen, Xiao Zhou Liu, Yan Wu, Guang Jie Song
Y and Sb doped SnO2 conductive particles are prepared by the complexation-coprecipi- tation method with Sn, Sb2O3 and Y2O3 as the raw materials.
The powder of antimony doped tin oxide has been widely used in photovoltaic and optoelectronic devices, flat panel displays, electrochromic materials, electrode materials and catalysts materials of olefin oxidation, oxidative dehydrogenation, and ammoxidation of alkenes, propylene to acrolein and acrylonitrile for their electric and optical advantage properties [2,3].
Xiao: Applied Mechanics and Materials Vol. 492 (2014) p. 370 [3] X.Z.
Chen: Journal of Rare Earths Vol. 25 (2007), p. 72 [4] X.Z.
Chen: Journal of Rare Earths Vol. 24 (2006), p. 42 [5] Z.
The powder of antimony doped tin oxide has been widely used in photovoltaic and optoelectronic devices, flat panel displays, electrochromic materials, electrode materials and catalysts materials of olefin oxidation, oxidative dehydrogenation, and ammoxidation of alkenes, propylene to acrolein and acrylonitrile for their electric and optical advantage properties [2,3].
Xiao: Applied Mechanics and Materials Vol. 492 (2014) p. 370 [3] X.Z.
Chen: Journal of Rare Earths Vol. 25 (2007), p. 72 [4] X.Z.
Chen: Journal of Rare Earths Vol. 24 (2006), p. 42 [5] Z.
Online since: October 2007
Authors: Fu Sheng Pan, Xiao Dong Peng, Wei Dong Xie, Hua Nie
Hryn (Ed.), Magnesium Technology, TMS (The Minerals,
Metals and Materials Society), 2001, pp. 119-125
JOM-journal of the minerals metals metals & materials society 55 (11): A34-A39 NOV 2003 [5] Kinji Hirai, Hidetoshi Somekawa, Yorinobu Takigawa, Kenji Higashi, Eeffcts of Ca and Sr addition on properties of a cast AZ91 magnesium alloy at room and elevated temperature.
Material Science and Engineering 2005(403):276-280 [6] Dargusch MS, Pettersen K, Bakke P, Nogita K, Bowles AL,Dunlop GL.
International Journal of Cast Metals Research 17 (3): 170-173 2004 [7] LIU Xiangguo, PENG Xiaodong, XIE Weidong, WEI Qunyi.Preparation, Technologies and Application of Strontium-Magnesium Master Alloys, Materials Science Forum, Vol.488-489, June 2005, pp:31-34 [8] Xu R.
Materials Science Forum, Vols.546-549, 2007, pp463-466
JOM-journal of the minerals metals metals & materials society 55 (11): A34-A39 NOV 2003 [5] Kinji Hirai, Hidetoshi Somekawa, Yorinobu Takigawa, Kenji Higashi, Eeffcts of Ca and Sr addition on properties of a cast AZ91 magnesium alloy at room and elevated temperature.
Material Science and Engineering 2005(403):276-280 [6] Dargusch MS, Pettersen K, Bakke P, Nogita K, Bowles AL,Dunlop GL.
International Journal of Cast Metals Research 17 (3): 170-173 2004 [7] LIU Xiangguo, PENG Xiaodong, XIE Weidong, WEI Qunyi.Preparation, Technologies and Application of Strontium-Magnesium Master Alloys, Materials Science Forum, Vol.488-489, June 2005, pp:31-34 [8] Xu R.
Materials Science Forum, Vols.546-549, 2007, pp463-466
Online since: November 2010
Authors: Pragya Shandilya, N.K. Jain, P.K. Jain
Introduction
With the significant progress in the field of material science and allied fields, many advanced
materials have been developed recently including metal matrix composite (MMC).
Lindroos and MJ Talvitie: Recent advances in metal matrix composites, Journal of Materials Processing Technology, Vol. 53 (1995), pp 273-284
Rosso: Ceramic and metal matrix composites: routes and properties, Journal of Materials Processing Technology, Vol. 175 (2006), pp 364-375
Journal of Achievements in Materials and Manufacturing Engg.
Journal of Machining and Machinability of Materials, Vol. 1 (4) (2006), pp 412-431
Lindroos and MJ Talvitie: Recent advances in metal matrix composites, Journal of Materials Processing Technology, Vol. 53 (1995), pp 273-284
Rosso: Ceramic and metal matrix composites: routes and properties, Journal of Materials Processing Technology, Vol. 175 (2006), pp 364-375
Journal of Achievements in Materials and Manufacturing Engg.
Journal of Machining and Machinability of Materials, Vol. 1 (4) (2006), pp 412-431
Online since: January 2014
Authors: Eddy Sutadji, Poppy Puspitasari, Andoko Andoko
In the self combustion technique, nanoparticles was obtained by heating the materials until the mixture combusts at 110oC.
This heating temperature has been used by other researchers to get the nanorods morphology of zinc oxide materials [7].
All the characterizations were carried out in Mechanical Engineering Department of Universiti Teknologi PETRONAS, Advance Materials Research Centre (AMREC) in Kulim, Kedah, and the FESEM unit of Universiti Teknologi Malaysia.
NSLS Science Highlights
Journal of Applied Physics. (2005)
This heating temperature has been used by other researchers to get the nanorods morphology of zinc oxide materials [7].
All the characterizations were carried out in Mechanical Engineering Department of Universiti Teknologi PETRONAS, Advance Materials Research Centre (AMREC) in Kulim, Kedah, and the FESEM unit of Universiti Teknologi Malaysia.
NSLS Science Highlights
Journal of Applied Physics. (2005)
Online since: October 2014
Authors: Mohd Faizal Mohideen Batcha, Hamidon bin Salleh, Vijay R. Raghavan, Suzairin bin Md Seri, Zainal Ambri bin Abdul Karim
Raghavan, “Tube Bank with Integral Wake Splitter Performance at Reynolds Number 5000 to 50000”, Applied Mechanics and Materials, vol. 465-466, 2014, pp. 546-551
[9] M.
Yianneskis, An experimental study of the mean flow and turbulence structure of cross-flow over tube bundles, Proceedings of IMechE Part C, Journal of Mechanical Engineering Science 210 (1996) 317–331
Journal of Applied Sciences, 1 (2001) 275-282 [16] F.
Journal of Applied Sciences, 10 (2010) 500-505
Yianneskis, An experimental study of the mean flow and turbulence structure of cross-flow over tube bundles, Proceedings of IMechE Part C, Journal of Mechanical Engineering Science 210 (1996) 317–331
Yianneskis, An experimental study of the mean flow and turbulence structure of cross-flow over tube bundles, Proceedings of IMechE Part C, Journal of Mechanical Engineering Science 210 (1996) 317–331
Journal of Applied Sciences, 1 (2001) 275-282 [16] F.
Journal of Applied Sciences, 10 (2010) 500-505
Yianneskis, An experimental study of the mean flow and turbulence structure of cross-flow over tube bundles, Proceedings of IMechE Part C, Journal of Mechanical Engineering Science 210 (1996) 317–331
Online since: October 2014
Authors: Chen Hui Li, Bing Qian Li, Meng Yan Zeng, Ru Cheng Dai, De Ming Meng
The light side temperature of ordinary glass and Low-E glass
Visible Light Transmittance Ratio (τ)
The visible light transmittance ratio refers to the rate of the intensity of light penetrating through transparent materials to the incident light intensity in visible light band (380-780 nm).
[4] Li Liang, Hongwei Tan, Shuring Zheng, et al, Analysis on energy-saving potential of transparent insulating glass coating, Chinese Journal of Building Science, Vol.29, No.4 (2013), p. 6-9
[7] Tengda Sun, Jiachun Xie, Jin Ling, et al, Preparation of ZnO ohmic electrode and study of UV photoelectrical characteristics of n-ZnO/p-Si heterojunction, Journal of University of Science and Technology China, Vol. 36, No. 3 (2006), p. 328-332
[9] Chaoyang Zhao, Wenqi Liu, Zhuxi Fu, etal, I-V and photoelectricity properties of ZnO/Si heterojunction on different substrate, Journal of University of Science and Technology China, Vol. 38, No. 11 (2008), p. 1262-1267
[13] Hongbo Tong and Qing Liu, Research development on thin film electroluminescent phosphor materials, Chinese Journal of Surface Technology, Vo1. 37, No. 3 (2008), p. 65-67.
[4] Li Liang, Hongwei Tan, Shuring Zheng, et al, Analysis on energy-saving potential of transparent insulating glass coating, Chinese Journal of Building Science, Vol.29, No.4 (2013), p. 6-9
[7] Tengda Sun, Jiachun Xie, Jin Ling, et al, Preparation of ZnO ohmic electrode and study of UV photoelectrical characteristics of n-ZnO/p-Si heterojunction, Journal of University of Science and Technology China, Vol. 36, No. 3 (2006), p. 328-332
[9] Chaoyang Zhao, Wenqi Liu, Zhuxi Fu, etal, I-V and photoelectricity properties of ZnO/Si heterojunction on different substrate, Journal of University of Science and Technology China, Vol. 38, No. 11 (2008), p. 1262-1267
[13] Hongbo Tong and Qing Liu, Research development on thin film electroluminescent phosphor materials, Chinese Journal of Surface Technology, Vo1. 37, No. 3 (2008), p. 65-67.
Online since: February 2011
Authors: Rui Zhang, Guang Ming Chen, Wen Feng Fan, Jian Qiao Li
Furthermore, DEM can reveal the mechanism of the mechanical, physical and chemical evolutive process of materials and structures in both the meso- and micro-scale [6].
The mechanical model of biological surfaces in DEM In DEM, the continuous model of meso- and micro-scale materials is established by integrating the contact elements.
In order to represent the inherent force of the mechanical characteristics of the continuous materials, the contact-bond model between the contact elements was established.
Journal of Mechanical Engineering Science Vol. 209 (1995), p. 221
[10] Tong J, Ma Y H, Ren L Q, Li J Q: Journal of Materials Science Letters Vol. 19 (2000), p. 529.
The mechanical model of biological surfaces in DEM In DEM, the continuous model of meso- and micro-scale materials is established by integrating the contact elements.
In order to represent the inherent force of the mechanical characteristics of the continuous materials, the contact-bond model between the contact elements was established.
Journal of Mechanical Engineering Science Vol. 209 (1995), p. 221
[10] Tong J, Ma Y H, Ren L Q, Li J Q: Journal of Materials Science Letters Vol. 19 (2000), p. 529.
Online since: January 2012
Authors: Xu Dong Zhou, Xiang Ru Liu, Xu Yi Shan
For other materials, there are a lot of flow stress models, such as Ludwik Model[4], Voce model[5], Ramberg and Osgood model[6], Ekelund model[7], Inoue model[8],Misaka model[9], Shida model[10], Zhou model[11], Sellars model[12], HERNANDEZ model[13] etc. have been established.
Yu: Journal of iron and steel research, international Vol. 16(6) (2009) p. 86-89 [2] J.
Wang: Journal of iron and steel research, international Vol. 17(11) (2010) p. 54-61 [3] E.J.
Salinas-Rodriguez: Journal of Magnetism and Magnetic Materials Vol. 323 (2011) p. 2524–2530 [4] P.
Voce: Journal of The Institute of Metals Vol. 74 (1948) p.537 [6] W.
Yu: Journal of iron and steel research, international Vol. 16(6) (2009) p. 86-89 [2] J.
Wang: Journal of iron and steel research, international Vol. 17(11) (2010) p. 54-61 [3] E.J.
Salinas-Rodriguez: Journal of Magnetism and Magnetic Materials Vol. 323 (2011) p. 2524–2530 [4] P.
Voce: Journal of The Institute of Metals Vol. 74 (1948) p.537 [6] W.
Online since: December 2010
Authors: Yi Xia Yan, Fang Ju Zhang, Ruo Ze Xie, Xi Cheng Huang, Wen Jun Hu, Jun Mei, Yong Mei Chen
Journal of Nuclear Materials, 307-311, Part 1: 547-554. (2001)
[6] N.
A.: Journal of the Nuclear Materials.
Journal of Refractory Metals & hard Materials.
Journal of the Nuclear Materials.
Journal of the Nuclear Materials.
A.: Journal of the Nuclear Materials.
Journal of Refractory Metals & hard Materials.
Journal of the Nuclear Materials.
Journal of the Nuclear Materials.
Online since: April 2014
Authors: Li Jun Cao, Gui Bo Yu, Feng He Tao, Shu Hai Wang, Qiao Ma
Introduction
Self-Propagating High-temperature Synthesis (SHS) is a method which is used to produce new materials.
Study on Composite Materials with a Centrifugal-thermit Process , Trans.
The materials and technology of self-propagating high-temperature synthesis[M].
Fundamentals of Materials Science[M].
Lei,.Ceramic Materials[M].
Study on Composite Materials with a Centrifugal-thermit Process , Trans.
The materials and technology of self-propagating high-temperature synthesis[M].
Fundamentals of Materials Science[M].
Lei,.Ceramic Materials[M].