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Online since: February 2013
Authors: Tong Sheng Sun
The energy absorbed can raise temperatures of materials rapidly.
Tab.1 are VSWR values of three gather materials.
Penetration depths of different pavement materials are contrasted.
Journal of Chongqing Jianzhu University, 2007, 29(3): 128-131
Advanced Materials Research,2012,462: 575-579
Tab.1 are VSWR values of three gather materials.
Penetration depths of different pavement materials are contrasted.
Journal of Chongqing Jianzhu University, 2007, 29(3): 128-131
Advanced Materials Research,2012,462: 575-579
Online since: April 2013
Authors: Wei Xu, Chang Hai Li
Effect of pH on the adsorption of As(V)
Fig.2 Effect of temperature on the adsorption of As(V)
pH of aqueous solution is an important factor for anions adsorption by adsorbing materials[12].
Acknowledgments This work was financially supported by the National Natural Science Foundation of China (Grant No. 21276027), the Natural Science Foundation of Shandong,China (No.
National Academy of Sciences, Washington DC. (1999)
Journal of Hazardous Materials B, 137: 464-479 (2006)
American Water Works Association Journal. 95(3): 77—85 (2003)
Acknowledgments This work was financially supported by the National Natural Science Foundation of China (Grant No. 21276027), the Natural Science Foundation of Shandong,China (No.
National Academy of Sciences, Washington DC. (1999)
Journal of Hazardous Materials B, 137: 464-479 (2006)
American Water Works Association Journal. 95(3): 77—85 (2003)
Online since: December 2011
Authors: Dong Hong Wang, Bao Yin Song, Miao Jie Qiao, Li Wen Liu
PANI nanofibers had the great potential to be used in electromagnetic shielding materials.
Kumar: Journal of Membrane Science Vol. 327 (2009), p. 188 [2] M.
Zhang: Materials Letters Vol. 61 (2007), p. 1419 [13] X.
Deng: Materials Letters Vol. 62 (2008), p. 1831 [15] L.
He: Materials Science and Engineering B Vol. 122 (2005), p. 76 [20] M.
Kumar: Journal of Membrane Science Vol. 327 (2009), p. 188 [2] M.
Zhang: Materials Letters Vol. 61 (2007), p. 1419 [13] X.
Deng: Materials Letters Vol. 62 (2008), p. 1831 [15] L.
He: Materials Science and Engineering B Vol. 122 (2005), p. 76 [20] M.
Online since: October 2023
Authors: Sang You Kim, Yeong Jun Lee, Hao Cheng, Taeuk Lim, Jie Hu, Won Suk Jung
[2] Shah S, Ouyang C, Fracture mechanics for failure of concrete, Annual review of materials science, 24(1994)293-320
[4] Bin S, Li Z, Multi-scale modeling and trans-level simulation from material meso-damage to structural failure of reinforced concrete frame structures under seismic loading, Journal of Computational Science,12(2016)38-50
[5] Vijay K, Murmu M, Deo SV, Bacteria based self healing concrete–A review, Construction and building materials, 152(2017)1008-14
[10] Jonkers HM, Self healing concrete: a biological approach, Self healing materials: an alternative approach to 20 centuries of materials science, (2007)195-204
[11] Wang X, Sun P, Han N, Xing F, Experimental study on mechanical properties and porosity of organic microcapsules based self-healing cementitious composite, Materials, 10(2017)20
[4] Bin S, Li Z, Multi-scale modeling and trans-level simulation from material meso-damage to structural failure of reinforced concrete frame structures under seismic loading, Journal of Computational Science,12(2016)38-50
[5] Vijay K, Murmu M, Deo SV, Bacteria based self healing concrete–A review, Construction and building materials, 152(2017)1008-14
[10] Jonkers HM, Self healing concrete: a biological approach, Self healing materials: an alternative approach to 20 centuries of materials science, (2007)195-204
[11] Wang X, Sun P, Han N, Xing F, Experimental study on mechanical properties and porosity of organic microcapsules based self-healing cementitious composite, Materials, 10(2017)20
Online since: February 2011
Authors: Li Chen, Ya Nan Wang, Guang Wei Chen, Fu You Wang, Guo Li Zhang, Jia Lu Li
In resent year, the choice for the high speed moving structural materials has shifted from almost metallic structures to advanced sandwich composites[3].
The sandwich composite rectangular plate with dimensions of 350 x 83.5 x 9.5mm was made of unidirectional prepreg of carbon fibre and woven fabric prepreg of carbon fiber as face materials both from Weihai GuangWei Composites co., LTD, as well as paulownia board with density of 0.249g/cm3 as core materials from Tianjin Wood Company.
The Cross-sectional shape is shown on Figure 1 and the specifications of prepreg materials are listed on Table 1.
Gibson: Composites Science and Technology Vol 60 (2000), 2769-2780 [3] M.
Dalenbring: International Journal of Solids and Structures Vol 39 (2002), P.5053-5079 [4] Wang Yanan, Zhang guoli, Chen Guangwei and Lijialu: Journal of Material Engineering No.S2 (2009) P.97~100[in Chinese]
The sandwich composite rectangular plate with dimensions of 350 x 83.5 x 9.5mm was made of unidirectional prepreg of carbon fibre and woven fabric prepreg of carbon fiber as face materials both from Weihai GuangWei Composites co., LTD, as well as paulownia board with density of 0.249g/cm3 as core materials from Tianjin Wood Company.
The Cross-sectional shape is shown on Figure 1 and the specifications of prepreg materials are listed on Table 1.
Gibson: Composites Science and Technology Vol 60 (2000), 2769-2780 [3] M.
Dalenbring: International Journal of Solids and Structures Vol 39 (2002), P.5053-5079 [4] Wang Yanan, Zhang guoli, Chen Guangwei and Lijialu: Journal of Material Engineering No.S2 (2009) P.97~100[in Chinese]
Online since: May 2011
Authors: Heng Quan, Zhen Ya Gu
Kim: Journal of materials science Vol. 35 (2000), p. 1579-1583
[4] A.
Jack et al: Journal of Applied Polymer Science Vol. 102 (2006), p. 128-139 [12] J.R.
Chen: Journal of Applied Science Vol. 69 (1998), p. 1563-1574 [13] G.
Lam: Journal of Applied Polymer Science Vol. 50 (1993) p. 1041-1058 [14] W.J.
Yang et al: Materials Letters Vol. 60 (2006), p. 3686- 3692 [15] G.R.
Jack et al: Journal of Applied Polymer Science Vol. 102 (2006), p. 128-139 [12] J.R.
Chen: Journal of Applied Science Vol. 69 (1998), p. 1563-1574 [13] G.
Lam: Journal of Applied Polymer Science Vol. 50 (1993) p. 1041-1058 [14] W.J.
Yang et al: Materials Letters Vol. 60 (2006), p. 3686- 3692 [15] G.R.
Online since: December 2014
Authors: Yang Yang, Kai Xuan Zhou, Xiangchun Liu, Xue Li Feng, Chen Guang Zuo
Research on the molten nitrate salt thermal properties based on solar thermal utilization
Yang Yang1,a, Xiangchun Liu2,b,* , Xueli Feng3,c, Kaixuan Zhou4,d,
Chen’guang Zuo5,e
1,2,3,4,5,School. of Material Science and Engineering, Xi’an University of Science and Technology, China
a yyxhfw@126.com, *,b liuxc@126.com, c 1004882377@qq.com, d 1075273887@qq.com, ezuozuoyanyan@163.com
* Corresponding author.
Experimental .Experimental Materials and Equipment Sodium nitrate, potassium nitrate and lithium nitrate are analytical grade.
Acknowledgments The work was supported by National Natural Science Foundation of China (Project 51072162 and 51372197) and the Scientific Research Program Funded by Shaanxi Provincial Education Department (Project 14JK1483).
Ma: .Journal of Beijing University of Technology, Vol. 33 (2007) No.1, p.62 [2] Keamey D.
[6] Bradshaw RW, Meeker DE: Journal of Solar Energy Mater9ials, Vol.21 (1990) No.1, p.51 [7] B.
Experimental .Experimental Materials and Equipment Sodium nitrate, potassium nitrate and lithium nitrate are analytical grade.
Acknowledgments The work was supported by National Natural Science Foundation of China (Project 51072162 and 51372197) and the Scientific Research Program Funded by Shaanxi Provincial Education Department (Project 14JK1483).
Ma: .Journal of Beijing University of Technology, Vol. 33 (2007) No.1, p.62 [2] Keamey D.
[6] Bradshaw RW, Meeker DE: Journal of Solar Energy Mater9ials, Vol.21 (1990) No.1, p.51 [7] B.
Online since: December 2012
Authors: Xiang Zhao Kong, Guan Hua Xiao, Hong Peng Liu, Qing Wang
Table 3 Temperature of separation materials
Case
1
2
3
4
5
6
7
8
9
Temperature/oC
473
565
536
610
736
705
652
757
689
Temperature of Separation Materials.
Carbon Content of Separation Materials.
Journal of Jilin University (Earth Science Edition).
Canadian Journal of Chemical Engineering.
Canadian Journal of Chemical Engineering.
Carbon Content of Separation Materials.
Journal of Jilin University (Earth Science Edition).
Canadian Journal of Chemical Engineering.
Canadian Journal of Chemical Engineering.
Online since: August 2018
Authors: Bin Liu, Mei Mei Zhang, Ying Hao Feng, Xiao Feng Li
International Journal of Refractory Metals and Hard Materials, 2013, 39: 61-77
Materials Science and Engineering: A, 1996, 209(1): 228-230
International Journal of Refractory Metals & Hard Materials, 2014, 42(1), 30-35
International Journal of Refractory Metals and Hard Materials, 2013, 40: 27-35
Materials Science and Engineering: A, 2006;426(1): 346-354. 53-58
Materials Science and Engineering: A, 1996, 209(1): 228-230
International Journal of Refractory Metals & Hard Materials, 2014, 42(1), 30-35
International Journal of Refractory Metals and Hard Materials, 2013, 40: 27-35
Materials Science and Engineering: A, 2006;426(1): 346-354. 53-58
Online since: August 2009
Authors: B.C. Li, Qiang Wang, Zhi Min Zhang, Y.J. Wu, X. Zhang
Now, magnesium and magnesium alloys have been extensively applied to the fields, such as,
navigation, astronavigation, "3C" products in automobile industry and military industry, and climbed
up to the top materials to decrease energy exhausted and protect environment.
Currently, countries enjoying developed industries have already engaged in the study and exploration of processing materials of magnesium alloys with high capability in deformation [3].
Materials and Methods for Experiment The chemical constitution of the AZ80 magnesium alloy, provided by the Key Lab of Electromagnetic Processing of Materials of the Ministry of Education at Northeast University, in the experiment was displayed in Table 1.
Acknowledge This paper was supported by National Natural Foundation of China (No.50735005, No.50605059) , projects from Shanxi Provincial Science Foundation for Youths (No.2007021026) and Development for Science and Technology in Higher Educational Institutes (No.20081027) .
[2] H.Friedrich, S.Schumann: Journal of Materials Processing Technology Vol. 117 (2001), p.276 [3] M.P.LIU, C.J.MA, et al.: The Chinese Journal of Nonferrous Metals Vol. 12(4) (2002), p.797 (Chinese) [4] Q.GUO, H.G.YAN, et al.: The Chinese Journal of Nonferrous Metals Vol. 15(6) (2005), p.900 (Chinese) [5] H.Takuda, H.Fujimoto, and N.Hatta: Journal of Materials Processing Technology Vol. 80 (1998), p.513 [6] Y.Yoshida, K.Arai, et al.: Sci & Tech of Advan Mater Vol. 6(2005), p.185 [7] X.ZHANG, Z.M.ZHANG, B.C.LI: journal of Plasticity Engineering Vol. 11(3) (2004), p.52 (Chinese) [8] N.LUAN, L.X.LI, et al.: The Chinese Journal of Nonferrous Metals Vol. 17(10) (2007), p.1678 (Chinese)
Currently, countries enjoying developed industries have already engaged in the study and exploration of processing materials of magnesium alloys with high capability in deformation [3].
Materials and Methods for Experiment The chemical constitution of the AZ80 magnesium alloy, provided by the Key Lab of Electromagnetic Processing of Materials of the Ministry of Education at Northeast University, in the experiment was displayed in Table 1.
Acknowledge This paper was supported by National Natural Foundation of China (No.50735005, No.50605059) , projects from Shanxi Provincial Science Foundation for Youths (No.2007021026) and Development for Science and Technology in Higher Educational Institutes (No.20081027) .
[2] H.Friedrich, S.Schumann: Journal of Materials Processing Technology Vol. 117 (2001), p.276 [3] M.P.LIU, C.J.MA, et al.: The Chinese Journal of Nonferrous Metals Vol. 12(4) (2002), p.797 (Chinese) [4] Q.GUO, H.G.YAN, et al.: The Chinese Journal of Nonferrous Metals Vol. 15(6) (2005), p.900 (Chinese) [5] H.Takuda, H.Fujimoto, and N.Hatta: Journal of Materials Processing Technology Vol. 80 (1998), p.513 [6] Y.Yoshida, K.Arai, et al.: Sci & Tech of Advan Mater Vol. 6(2005), p.185 [7] X.ZHANG, Z.M.ZHANG, B.C.LI: journal of Plasticity Engineering Vol. 11(3) (2004), p.52 (Chinese) [8] N.LUAN, L.X.LI, et al.: The Chinese Journal of Nonferrous Metals Vol. 17(10) (2007), p.1678 (Chinese)