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Online since: February 2011
Authors: Yu Zhu, Ying Zi Yang, Yan Yao
ACI Material Journal, Vol.104(2007), p. 233
[2] Kim Y Y, Fischer G, Lim Y M et al.
ACI Material Journal, Vol. 101(2004), p. 42 [3] Li V C.
Journal of Materials in Civil Engineering, Vol.5 (1998), p.66 [5] Li V C, Leung C K Y.
Journal of Materials in Civil Engineering.
ACI Material Journal.
ACI Material Journal, Vol. 101(2004), p. 42 [3] Li V C.
Journal of Materials in Civil Engineering, Vol.5 (1998), p.66 [5] Li V C, Leung C K Y.
Journal of Materials in Civil Engineering.
ACI Material Journal.
Online since: February 2012
Authors: Jian Qing Qian, Ji Ping Chen, Sheng Zhi Li
Skogsgårdh: Materials Science and Engineering Vol. 279 (2000), p. 95
Altan: Journal of Materials Processing Technology Vol. 108 (2001), p. 384
Altan: Journal of Materials Processing Technology Vol. 98 (2000), p.25
Hartl: Journal of Materials Processing Technology Vol. 167 (2005), p. 383
Wang: Journal of Materials Processing Technology Vol. 177 (2005), p. 668
Altan: Journal of Materials Processing Technology Vol. 108 (2001), p. 384
Altan: Journal of Materials Processing Technology Vol. 98 (2000), p.25
Hartl: Journal of Materials Processing Technology Vol. 167 (2005), p. 383
Wang: Journal of Materials Processing Technology Vol. 177 (2005), p. 668
Online since: February 2012
Authors: Yan Ping Chen, Ling Hua Kong, Jiao Dai, Chun Bin Li
New materials, new technology and customers’ demands lead to smaller, lighter, cheaper, higher performance multi-spectral imaging instruments.
Zhao, et al: Journal of Applied Optics Vol. 31 (2010), p. 78-82
Wang: Chinese Journal of Luminescence Vol.32 (2011), p. 968-971
Li: Chinese Journal of Luminescence Vol. 25 (2004), p.425-428
Ying: Journal of Chinese Institute of Food Science and Technology Vol.3 (2003), p. 89-92
Zhao, et al: Journal of Applied Optics Vol. 31 (2010), p. 78-82
Wang: Chinese Journal of Luminescence Vol.32 (2011), p. 968-971
Li: Chinese Journal of Luminescence Vol. 25 (2004), p.425-428
Ying: Journal of Chinese Institute of Food Science and Technology Vol.3 (2003), p. 89-92
Online since: May 2018
Authors: Chu Chen, Ting Ju Li, Xin Feng Zhou, Yong Dong He
The test was performed on the CS2210 universal materials tester.
Prediction of 3-D temperature field of TP2 copper tubes in three-roll planetary rolling process[J]. journal of materials processing technology, 2008, 205(1): 370-375
Materials science and technology, 2007, 23(6): 715-722
Materials Transactions, 2012, 53(5): 1011-1016
Journal of Nuclear Materials, 2015, 462: 160-164
Prediction of 3-D temperature field of TP2 copper tubes in three-roll planetary rolling process[J]. journal of materials processing technology, 2008, 205(1): 370-375
Materials science and technology, 2007, 23(6): 715-722
Materials Transactions, 2012, 53(5): 1011-1016
Journal of Nuclear Materials, 2015, 462: 160-164
Online since: October 2012
Authors: Hassan Norita, Rozaidi Rasid, Surip Siti Norasmah, Noor Azlina Hassan, Hazleen Anuar, Sahrim Haji Ahmad, Bonnia Noor Najmi
Materials and Method
Materials.
The materials were stored in a desiccator prior to processing.
Materials Science Engineering 23 (2003) 763-72
I. morphology, rheology, and dynamic mechanical properties, Journal Applied Polymer Science 75 (2000) 1127-1137
Thermal and mechanical properties, Journal of Applied Polymer Science 51(1994) 1357-1363
The materials were stored in a desiccator prior to processing.
Materials Science Engineering 23 (2003) 763-72
I. morphology, rheology, and dynamic mechanical properties, Journal Applied Polymer Science 75 (2000) 1127-1137
Thermal and mechanical properties, Journal of Applied Polymer Science 51(1994) 1357-1363
Online since: April 2014
Authors: Wen Yuan Liao, Dong Hua Zhou, Chun Xiu Han
The finite element model is established with both material and geometrical non-linearity.
(a) herringbone stiffener (b) diamond stiffener Fig.1 Stiffener shape Finite Element Modeling Element type and material properties.
All the stiffeners have the same material property values with steel beam.
References [1] Park J W, Kim C H, Yang S C.Ultimate strength of ribbed slab composite beams with web opening [J].Journal of Structural Engineering, ASCE, 2003, 129(6):810-817
Analysis of composite beams with web openings [J].Journal of Structural Engineering, 1984, 110(9):145-162
(a) herringbone stiffener (b) diamond stiffener Fig.1 Stiffener shape Finite Element Modeling Element type and material properties.
All the stiffeners have the same material property values with steel beam.
References [1] Park J W, Kim C H, Yang S C.Ultimate strength of ribbed slab composite beams with web opening [J].Journal of Structural Engineering, ASCE, 2003, 129(6):810-817
Analysis of composite beams with web openings [J].Journal of Structural Engineering, 1984, 110(9):145-162
Online since: May 2012
Authors: Xi Guang Cui, Nan Ma, Zhi Wei Wang, Zhong Long Yu
A triaxial stress state exists in FRP (Fiber-reinforced materials) wrapped concrete compared with the uniaxial stress state, the ultimate compressive strain of concrete and the bearing capacity is improved[2-5].
CFRP use shell elements S8R5 (reduced integration eight-node thick shell element hyperbolic) simulate, fiber materials is anisotropic, fiber direction and concrete column of axis is vertical.
Compressive Behavior of Concrete Confined by Carbon Fiber Composite Jackets [J].Journal of Materials in Civil Engineering,2000,12(2):139-146
China Railway Science, 2006, 27(3):34-42.
China Railway Science, 2007, 28(2):55-60.
CFRP use shell elements S8R5 (reduced integration eight-node thick shell element hyperbolic) simulate, fiber materials is anisotropic, fiber direction and concrete column of axis is vertical.
Compressive Behavior of Concrete Confined by Carbon Fiber Composite Jackets [J].Journal of Materials in Civil Engineering,2000,12(2):139-146
China Railway Science, 2006, 27(3):34-42.
China Railway Science, 2007, 28(2):55-60.
Online since: January 2013
Authors: Zhao Lu Xue, Shao Hong Wang, Xiao Dan Hu, Zhao Xia Hou, Mei Han Wang
Dai, J.J Zhang, et al: Journal of Materials Science, 2007, 42(3):747
Champagnon : Optical Materials, 2009, 31(8):1242
Kalampounias: Bulletin of Materials Science, 2008, 31(5):781
Awasthi, et al: Materials Chemistry and Physics, 2009, 118 (2-3):298
Mu, et al : Journal of Luminescence, 2007, 126(1):251
Champagnon : Optical Materials, 2009, 31(8):1242
Kalampounias: Bulletin of Materials Science, 2008, 31(5):781
Awasthi, et al: Materials Chemistry and Physics, 2009, 118 (2-3):298
Mu, et al : Journal of Luminescence, 2007, 126(1):251
Online since: July 2012
Authors: Bing Hua Yao, Xiao Ning Wu
Study on Transportation of Cu(Ⅱ)by Dispersion Supported Liquid Membrane System
Xiao-ning WU1,a, Bing-hua Yao2,b
1School of Materials & Chemical Engineering,Xi’an Technological University, Xi’an 710032, China.
2Faculty of Science, Xian University of Technology, Xian 710054, China
awxning888@126.com,bbhyao@xaut.edu.cn
Keywords: Liquid membrane, dispersion supported liquid membrane, organic phosphonic acid, copper(Ⅱ)
Abstract.
Materials and methods Reagents and Instruments A atomic emission spectrometer model 520(made in changchun);the JJ-1 accurate strengthen electronic stirrer(made in Jiangsu) ,The UV-1200 spectrophotameter(made in Shanghai ) were used. 2-ethylhexyl phosphonic acid mono-2-ethylhexyl(PC-88A),from Japan; All the reagents, such as CuSO4·5H2O, NH3.H2O, NH4Cl, HAc, NaAc , are of analytical grade or better.
Transport of Cu (Ⅱ) through a supported liquid membrane using N503 as a mobile carrier[J].Journal of Xi’an University of Technology,2008,24(3)320-323.
Chemical Engineering Science, 2007,62: 1721-1729.
Journal of Membrane Science,2006, 280:470-477
Materials and methods Reagents and Instruments A atomic emission spectrometer model 520(made in changchun);the JJ-1 accurate strengthen electronic stirrer(made in Jiangsu) ,The UV-1200 spectrophotameter(made in Shanghai ) were used. 2-ethylhexyl phosphonic acid mono-2-ethylhexyl(PC-88A),from Japan; All the reagents, such as CuSO4·5H2O, NH3.H2O, NH4Cl, HAc, NaAc , are of analytical grade or better.
Transport of Cu (Ⅱ) through a supported liquid membrane using N503 as a mobile carrier[J].Journal of Xi’an University of Technology,2008,24(3)320-323.
Chemical Engineering Science, 2007,62: 1721-1729.
Journal of Membrane Science,2006, 280:470-477
Online since: June 2014
Authors: Xiao Zhen Liu, Xiao Zhou Liu, Jie Chen, Lu Luo, Le Tian Xia, Jian Qiang Gen
MCrAlY(M: Ni, Co or Ni+Co) and modified NiAl were widely used as the bonding layer material currently.
Rossignol: Journal of the European Ceramic Society Vol. 33 (2013), p. 2633 [5] H.
Voisey, et al.: Materials Science and Engineering: A Vol. 585 (2013), p. 205 [8] P.
Wang, et al.: Surface Science Vol. 606 (2012), p. 1173 [11] F.R.
Yu, et al.: Journal of Rare Earths Vol. 27 (2009), p. 480 [14] X.Z.
Rossignol: Journal of the European Ceramic Society Vol. 33 (2013), p. 2633 [5] H.
Voisey, et al.: Materials Science and Engineering: A Vol. 585 (2013), p. 205 [8] P.
Wang, et al.: Surface Science Vol. 606 (2012), p. 1173 [11] F.R.
Yu, et al.: Journal of Rare Earths Vol. 27 (2009), p. 480 [14] X.Z.