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Online since: February 2011
Authors: Yang Hua Li, Gong Ming Long, Pi An Deng, Sheng Zhi Li, Yuan De Yin, Yong Lin Kang
The material of pierced shell is ck45.
(In Chinese) [2] P.Sobkowiak: Journal of Materials Processing Technology, Vol. 61(1996), p. 347
[3] K.S.Lee, L.Lu: Journal of Materials Processing Technology, Vol. 113 (2001), p. 739
[4] M.VACANCE, E.MASSON and J.L.CHENOT: Journal of Materials Processing Technology, Vol. 24(1990), p. 421
Xu, et al: Advanced Materials Research, Vols. 97-101(2010), p. 3097
(In Chinese) [2] P.Sobkowiak: Journal of Materials Processing Technology, Vol. 61(1996), p. 347
[3] K.S.Lee, L.Lu: Journal of Materials Processing Technology, Vol. 113 (2001), p. 739
[4] M.VACANCE, E.MASSON and J.L.CHENOT: Journal of Materials Processing Technology, Vol. 24(1990), p. 421
Xu, et al: Advanced Materials Research, Vols. 97-101(2010), p. 3097
Online since: December 2013
Authors: Zi Yi Hou, Peng Peng, Jin De Xie, Ye Zhen Yuan, Shao Peng Zheng
Concrete Materials Introduction [M].
Rheology and Cement Applied Science [J].
Journal of WuHan Institute of Building Materials, 1980, No.2: 53-57
Journal of South China University of Technology (Natural Science Edition), 2008, 36 (7): 117-123
Journal of WuHan Institute of Building Materials, 1984, No.1: 67-70
Rheology and Cement Applied Science [J].
Journal of WuHan Institute of Building Materials, 1980, No.2: 53-57
Journal of South China University of Technology (Natural Science Edition), 2008, 36 (7): 117-123
Journal of WuHan Institute of Building Materials, 1984, No.1: 67-70
Online since: August 2005
Authors: Zhi Jun Peng, Peng Cheng Zhai, Qing Jie Zhang
In the paper, firstly self-consistent model (SCM) is used for establishing the predicted
formula which can predict the effective permittivity of the composite materials with core-shell type
inclusions.
Introduction There are two kinds of typical absorbing wave materials: One is the metal iron particle [1] which has strong ability to absorb high frequency electromagnetic wave, but it has higher density and it is easier to oxidize than other materials.
How can we make use of two materials' merits to synthesize a new absorbing wave material which has excellent absorbing wave capacity in all bands, better oxidation resistant and appropriate density?
Giordano: Journal of Electrostatics Vol. 58 (2003), p. 59
Cheng: Journal of Dalian University of Technology (in Chinese), Vol. 34 (1994), p.138
Introduction There are two kinds of typical absorbing wave materials: One is the metal iron particle [1] which has strong ability to absorb high frequency electromagnetic wave, but it has higher density and it is easier to oxidize than other materials.
How can we make use of two materials' merits to synthesize a new absorbing wave material which has excellent absorbing wave capacity in all bands, better oxidation resistant and appropriate density?
Giordano: Journal of Electrostatics Vol. 58 (2003), p. 59
Cheng: Journal of Dalian University of Technology (in Chinese), Vol. 34 (1994), p.138
Online since: June 2012
Authors: Xiu Mei Han, Deng Hui Ren, Ying Ling Wang, Gui Fang Sun, Xi Wei Qi
Luminescent Properties of MgLaLiSi2O7:Eu3+ Phosphors via Sol-Gel Process
Han Xiumei a, Ren Denghui, Wang Yingling, Sun Guifang, Qi Xiwei
Department of Materials Science and Engineering, Northeastern University at Qinhuangdao Branch, Qinhuangdao 066004, P.
Introduction Attention is currently paid to the synthesis of rare earth silicates which is a suitable host lattice for luminescence materials with high physical and chemical stablity.
The main starting materials for the synthesis were La2O3, Eu2O3 (99.99%), Li2CO3, MgCO3and HNO3 (A.R.).
[4] M.E.Fleet, X.Y.Liu, High-Pressure Rare Earth Disilicates RE2Si2O7(RE=Nd, Sm, Eu, Gd): Type K, Journal of solid Chemistry. l61(2001)166-170
Cheng, Handbook of nanophase and nanostructured materials, Qinghua Press, Beijing, 2002
Introduction Attention is currently paid to the synthesis of rare earth silicates which is a suitable host lattice for luminescence materials with high physical and chemical stablity.
The main starting materials for the synthesis were La2O3, Eu2O3 (99.99%), Li2CO3, MgCO3and HNO3 (A.R.).
[4] M.E.Fleet, X.Y.Liu, High-Pressure Rare Earth Disilicates RE2Si2O7(RE=Nd, Sm, Eu, Gd): Type K, Journal of solid Chemistry. l61(2001)166-170
Cheng, Handbook of nanophase and nanostructured materials, Qinghua Press, Beijing, 2002
Online since: December 2013
Authors: Jaroslaw Piątkowski, Roman Przeliorz
Therefore the development of coal gasification technology depends on the development of metallic materials that could offer better resistance to gas corrosion in complex atmospheres than the materials produced so far.
Test materials and methods The study of the oxidation kinetics was carried out on chromium-manganese steel of an austenitic structure.
Pfeil, Journal Iron and Steel Institute 119 (1929)
Mrowec, Journal of Materials Science 9 (1974) 1961-1976
Grzesik, Journal of Physics and Chemistry of Solids 65 (2004) 1651-56
Test materials and methods The study of the oxidation kinetics was carried out on chromium-manganese steel of an austenitic structure.
Pfeil, Journal Iron and Steel Institute 119 (1929)
Mrowec, Journal of Materials Science 9 (1974) 1961-1976
Grzesik, Journal of Physics and Chemistry of Solids 65 (2004) 1651-56
Online since: August 2012
Authors: Ruth Herta Goldsmith Aliaga Kiminami, Ana Cristina Figueiredo de Melo Costa, Daniel Cornejo, M.M. Tavares, R.L.P. Santos
Journal of magnetism and magnetic materials, Vol. 313 (2007), p. 29-36
Materials.
Science. and Engineering.
Nanocrystalite Materials.
Chen, Journal of Hazardous Materials.
Materials.
Science. and Engineering.
Nanocrystalite Materials.
Chen, Journal of Hazardous Materials.
Online since: February 2018
Authors: Min Hou, Miao Hu, Xin Li, Xiao Lin Cao, Yan Bo Li
In recent years, University of Science and Technology Beijing has developed a cold bending CARD flexible system, cold bending CARD expert system [9].
Cold formed CAD and CAM technology building doors and windows and metal building materials in March 2006 [7] Zhang Lele, Tan Nanlin, Liu CAI.
Longitudinal and shear strain development in cold roll-forming, Journal of Material Processing Technology, 1996, 60, 219-224 [18] Walker T R, Pick R J., Development in the geometric modeling of an ERW pipe schlep, Journal of Material Processing Technology, 1991, 25, 35-54 [19] Senanayake R S,Cole I M, Thimvamdchelvan S.
A computer algorithm to link a finite-element package to the CAD/CAM of cold roll-forming Journal of Material Processing Technology, 1992, 31, 277-293 [21] Farzin M, Tehrani M S, Shameli E, Determination of buckling limit of strain in cold roll-forming by the finite element analysis, Journal of Material Processing Technology, 2002, 125, 626-632 [22] Barnet M, Mguil S, Pol P.
Modelling of a roll-forming process with a combined 2D and 3D FEM code, Journal of Material Processing Technology, 1998, 80, 213-219 [23] Hong S,Lee S,Kim N, A parametric study on forming length in roll-forming, Journal of Material Processing Technology,2001,113,774-778 [24] Kiuchi M,Wang F Z.
Cold formed CAD and CAM technology building doors and windows and metal building materials in March 2006 [7] Zhang Lele, Tan Nanlin, Liu CAI.
Longitudinal and shear strain development in cold roll-forming, Journal of Material Processing Technology, 1996, 60, 219-224 [18] Walker T R, Pick R J., Development in the geometric modeling of an ERW pipe schlep, Journal of Material Processing Technology, 1991, 25, 35-54 [19] Senanayake R S,Cole I M, Thimvamdchelvan S.
A computer algorithm to link a finite-element package to the CAD/CAM of cold roll-forming Journal of Material Processing Technology, 1992, 31, 277-293 [21] Farzin M, Tehrani M S, Shameli E, Determination of buckling limit of strain in cold roll-forming by the finite element analysis, Journal of Material Processing Technology, 2002, 125, 626-632 [22] Barnet M, Mguil S, Pol P.
Modelling of a roll-forming process with a combined 2D and 3D FEM code, Journal of Material Processing Technology, 1998, 80, 213-219 [23] Hong S,Lee S,Kim N, A parametric study on forming length in roll-forming, Journal of Material Processing Technology,2001,113,774-778 [24] Kiuchi M,Wang F Z.
Online since: December 2024
Authors: Mohd Nazry Salleh, Mohd Hafiz Zainol, Mohd Fairul Sharin Abdul Razak, Ismail Ibrahim, Amira Abul Shukor
Materials Science and Engineering: B, 273, 115440
ACS Applied Energy Materials, 2(4), 2870–2877
Journal of Science: Advanced Materials and Devices
Recent progress of graphene-based photoelectrode materials for dye-sensitized solar cells.
Journal of Hazardous Materials, 279, 96–104
ACS Applied Energy Materials, 2(4), 2870–2877
Journal of Science: Advanced Materials and Devices
Recent progress of graphene-based photoelectrode materials for dye-sensitized solar cells.
Journal of Hazardous Materials, 279, 96–104
Online since: July 2015
Authors: Dermot Brabazon, Asnul Hadi Ahmad, Sumsun Naher
Materials Science and Engineering A.
Materials Science and Engineering A. 580 (2013) 362-373
Materials Science and Engineering A.
Iranian Journal of Materials Science & Engineering (2013)10
Journal of Materials Processing Technology. 111 (2001) 42-47
Materials Science and Engineering A. 580 (2013) 362-373
Materials Science and Engineering A.
Iranian Journal of Materials Science & Engineering (2013)10
Journal of Materials Processing Technology. 111 (2001) 42-47
Online since: December 2007
Authors: Li Zhi Gu, T. Lee
Wang: Acta of Materials Research, Vol.11 (2) (1997):
pp.191-194
Mroz: International Journal of Solids and structures, Vol.42 (15), (2005), pp.4436-4467
Saleh: International Journal of Solids and structures, Vol.42 (15)(2005), pp.4484-4493
Soares and M.A.C.Ferro: Journal of Sound and Vibration.
Ding: Key Engineering Materials, Vol. 259-260 (2004), pp. 456-461.
Mroz: International Journal of Solids and structures, Vol.42 (15), (2005), pp.4436-4467
Saleh: International Journal of Solids and structures, Vol.42 (15)(2005), pp.4484-4493
Soares and M.A.C.Ferro: Journal of Sound and Vibration.
Ding: Key Engineering Materials, Vol. 259-260 (2004), pp. 456-461.