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Online since: July 2012
Authors: Hai Yue Zhang, Qian Li, Peng Li
Materials and methods
Materials
U. angustifolia was collected in Liuhe, Jilin province of China. 85% ethanol (AR) was purchased from Tianjin Fuyu Fine Chemical Co.
Journal of Nutritional Biochemistry Vol. 20(2009), P. 974–981
International Journal of Phytomedicine Vol. 2 (2010), P. 47-51
Food science Vol. 29(11) (2008), P.282-283. ”In Chinese” [12] Zhang HY, Yan XJ.
African Journal of Biotechnology Vol. 10(46) (2011), P. 9428-9437.”In Chinese” [13] Zhou Y, Wang W,Yan XG.
Journal of Nutritional Biochemistry Vol. 20(2009), P. 974–981
International Journal of Phytomedicine Vol. 2 (2010), P. 47-51
Food science Vol. 29(11) (2008), P.282-283. ”In Chinese” [12] Zhang HY, Yan XJ.
African Journal of Biotechnology Vol. 10(46) (2011), P. 9428-9437.”In Chinese” [13] Zhou Y, Wang W,Yan XG.
Online since: October 2013
Authors: Zhi Feng Zeng, Xi Duo Hu
The morphology of the materials was observed with a scanning electron microscopy (SEM, Hitachi S-3400N).
These materials were dispersed in 1-methyl-2-pyrrolidinone (NMP) and the resultant slurry was then spread onto an aluminum foil using the doctor blade technique.
Journal of Power Sources 158 (2006) 1425-1430. ].
It showed that the electrode materials have good reversibility.
Science Press, 2010,104-106. ].
These materials were dispersed in 1-methyl-2-pyrrolidinone (NMP) and the resultant slurry was then spread onto an aluminum foil using the doctor blade technique.
Journal of Power Sources 158 (2006) 1425-1430. ].
It showed that the electrode materials have good reversibility.
Science Press, 2010,104-106. ].
Online since: October 2006
Authors: M.R. Wisnom, Guillaume Vert, René Rotinat, Stephane Avril, Fabrice Pierron, Richard L. Burguete
American Society for the Testing of Materials
A T-shaped specimen for the direct characterization of orthotropic materials.
Identification of the mechanical properties of solid materials.
Journal of Materials Processing Technology, 75:204-211, 1998
International Journal for Mechanical Sciences, 48(3):256-264, 2006.
A T-shaped specimen for the direct characterization of orthotropic materials.
Identification of the mechanical properties of solid materials.
Journal of Materials Processing Technology, 75:204-211, 1998
International Journal for Mechanical Sciences, 48(3):256-264, 2006.
Online since: March 2013
Authors: Mohd Afzan Mohd Anuar, Ahmad Azlan Mat Isa
Anifantis, Vibration analysis of multi-walled carbon nanotubes using a spring-mass based finite element model, Computational Materials Science 47 (2009) 168-177
Materials science and Engineering C 16 (2001) 3-10
Computational Materials Science 48 (2010) 730-735
Computational Materials Science 50 (2010) 790-795
Advanced Materials 17 (2005) 3011-3018
Materials science and Engineering C 16 (2001) 3-10
Computational Materials Science 48 (2010) 730-735
Computational Materials Science 50 (2010) 790-795
Advanced Materials 17 (2005) 3011-3018
Online since: February 2011
Authors: Shao Fei Jiang, Ji Quan Li, Chuan Chen
A.: Journal of Applied Polymer Science, 2006, 101(2): 1174-1180
[3] Kim D.
H.: Journal of Injection Molding Technology, 2001, 5 (4): 229-232 [4] Yao D.
G., Kim B.: Polymer Engineering and Science , 2002, 42(12) : 2471-2481 [5] Zhao Guo-qun, Li Hui-ping, Guan Yan-mian: CN Patent 101249715A (2008)[in Chinese] [6] Ding Lei, Wu Xiao-yu, Liang Xiong.
Manufacture Information Engineering of China, 2008, 37(17): 44-47[in Chinese] [7] Zhao Guo-qun, Wang Gui-long, Li Hui-ping, Guan Yan-jin: Journal of Plasticity Engineering, 2009, 16(1): 190-195[in Chinese] [8] Zhang Peng, Cheng Yongqi, Song Caifu:Engineering Plastics Application,2009,37(4): 31-34[in Chinese] [9] Zhao Guo-qun, Wang Gui-long, Li Hui-ping:Journal of Plasticity Engineering,2009, 16(1): 190-195[in Chinese] [10] Zhang Ming-lei; Yu Xin-shi; Wang Xiao-xin; et al.: Die and Mould Technology, 2009(3): 27-29, 53[in Chinese] [11] Wang Guilong, Zhao Guoqun, Li Huiping, Guan Yanjin, Chen Liang: Journal of Mechanical Engineering, 2009, 45(6): 216-221[in Chinese] [12] Guilong Wang, Guoqun Zhao, Huiping Li, Yanjin Guan: Materials and Design, 2010, 31(1): 382-395 [13] Liu Dong-lei, Xin Yong: Polymer Materials Science and Engineering, 2009, 25(8): 162-166[in Chinese] [14] Wu Xiao-yu, Liang Xiong, Li Ji-bin, Sun Cheng-hong, Huang Shan, Yang Wen-hai: China Plastics, 2009, 23(5): 110-
Kimerling, Byung Kim: Polymer Engineering and Science, 2006, 46(7):938-945 [21] YIM Sook-Jia: US Patent 09423932 (1999) [22] Ren Shu-zi: CN Patent 1303767A (2001) [in Chinese] [23] Shia-Chung Chen, Wen-Ren Jong, Jen-An Chang: Journal of Applied Polymer Science, 2006, 101(2): 1174-1180 [24] Wang Jiang-kang, Tan Long-quan, Liu Xiang-yang: CN Patent 101224627A (2008) [in Chinese] [25] Chang Pei-Chi, Hwang Sheng-Jye: International Journal of Heat and Mass Transfer, 2006, 49(21-22): 3846-3854 [26] Lin Yu-Wan, Li Hai-Mei, Chen Shia-Chung, Shen Chang-Yu: International Communications in Heat and Mass Transfer, 2005, 32(9): 1221-1230 [27] Yu Xin-shi, Zhao Guo-qun, Wang Xiao-xin, Guan Yan-mian, Li Hui-ping, Liu Qing-jiang: CN Patent 101157263 (2008) [in Chinese] [28] Peng Zhao, Huamin Zhou, Yang Li, Dequn Li: International Journal of Advanced Manufacturing Technology, 2010, 49(9-12):949-959
H.: Journal of Injection Molding Technology, 2001, 5 (4): 229-232 [4] Yao D.
G., Kim B.: Polymer Engineering and Science , 2002, 42(12) : 2471-2481 [5] Zhao Guo-qun, Li Hui-ping, Guan Yan-mian: CN Patent 101249715A (2008)[in Chinese] [6] Ding Lei, Wu Xiao-yu, Liang Xiong.
Manufacture Information Engineering of China, 2008, 37(17): 44-47[in Chinese] [7] Zhao Guo-qun, Wang Gui-long, Li Hui-ping, Guan Yan-jin: Journal of Plasticity Engineering, 2009, 16(1): 190-195[in Chinese] [8] Zhang Peng, Cheng Yongqi, Song Caifu:Engineering Plastics Application,2009,37(4): 31-34[in Chinese] [9] Zhao Guo-qun, Wang Gui-long, Li Hui-ping:Journal of Plasticity Engineering,2009, 16(1): 190-195[in Chinese] [10] Zhang Ming-lei; Yu Xin-shi; Wang Xiao-xin; et al.: Die and Mould Technology, 2009(3): 27-29, 53[in Chinese] [11] Wang Guilong, Zhao Guoqun, Li Huiping, Guan Yanjin, Chen Liang: Journal of Mechanical Engineering, 2009, 45(6): 216-221[in Chinese] [12] Guilong Wang, Guoqun Zhao, Huiping Li, Yanjin Guan: Materials and Design, 2010, 31(1): 382-395 [13] Liu Dong-lei, Xin Yong: Polymer Materials Science and Engineering, 2009, 25(8): 162-166[in Chinese] [14] Wu Xiao-yu, Liang Xiong, Li Ji-bin, Sun Cheng-hong, Huang Shan, Yang Wen-hai: China Plastics, 2009, 23(5): 110-
Kimerling, Byung Kim: Polymer Engineering and Science, 2006, 46(7):938-945 [21] YIM Sook-Jia: US Patent 09423932 (1999) [22] Ren Shu-zi: CN Patent 1303767A (2001) [in Chinese] [23] Shia-Chung Chen, Wen-Ren Jong, Jen-An Chang: Journal of Applied Polymer Science, 2006, 101(2): 1174-1180 [24] Wang Jiang-kang, Tan Long-quan, Liu Xiang-yang: CN Patent 101224627A (2008) [in Chinese] [25] Chang Pei-Chi, Hwang Sheng-Jye: International Journal of Heat and Mass Transfer, 2006, 49(21-22): 3846-3854 [26] Lin Yu-Wan, Li Hai-Mei, Chen Shia-Chung, Shen Chang-Yu: International Communications in Heat and Mass Transfer, 2005, 32(9): 1221-1230 [27] Yu Xin-shi, Zhao Guo-qun, Wang Xiao-xin, Guan Yan-mian, Li Hui-ping, Liu Qing-jiang: CN Patent 101157263 (2008) [in Chinese] [28] Peng Zhao, Huamin Zhou, Yang Li, Dequn Li: International Journal of Advanced Manufacturing Technology, 2010, 49(9-12):949-959
Online since: September 2013
Authors: Hong Min Jia, Guo Zhong Xu, Yan Hui Wang
To improve adsorption ability of activated carbon, KOH was added as a activator into the carbonization materials.
The raw materials, such as petroleum coke, coal, coal pitch and nutshell are suitable to prepare activated carbon.
Apricot shells are used as materials to produce activated carbon with potassium hydrate as activating agent,.
New Carbon Materials, 2007, 22(4): 307- 314.
New Carbon Materials, 2009, 24(3): 265-269.
The raw materials, such as petroleum coke, coal, coal pitch and nutshell are suitable to prepare activated carbon.
Apricot shells are used as materials to produce activated carbon with potassium hydrate as activating agent,.
New Carbon Materials, 2007, 22(4): 307- 314.
New Carbon Materials, 2009, 24(3): 265-269.
Online since: December 2011
Authors: Hai Tao Zhou, Xiao Zhou, Rui Rui Liu, Li Bin Liu, Zhen Dong Zhang
Tensile properties of hot extruded Mg-Zn-Nd-Y-Zr alloy at elevated temperatures
Xiao Zhou1, a, Haitao Zhou1, b, Zhendong Zhang2, Ruirui Liu1, Libin Liu1
1 School of Materials Science and Engineering, Central South University, Changsha, 410083, P.R.
:Journal of Materials Science, 1999 Vol.34(1999) p 2255
Vol.21 (2011) p265 [8] Ding Wenjiang, Li Daquan: Materials Science and Engineering A Vol.483 (2008) p228 [9] Chunjiang Ma, Manping Liu, Wenjiang Ding, et al.Mater.
Higashi: Materials Transactions, vol.42 (7) (2001) p1177 [15] J.
Han.: Materials Science and Engineering A, vol.420 (2006) p322 [19] Alok Singh , M.
:Journal of Materials Science, 1999 Vol.34(1999) p 2255
Vol.21 (2011) p265 [8] Ding Wenjiang, Li Daquan: Materials Science and Engineering A Vol.483 (2008) p228 [9] Chunjiang Ma, Manping Liu, Wenjiang Ding, et al.Mater.
Higashi: Materials Transactions, vol.42 (7) (2001) p1177 [15] J.
Han.: Materials Science and Engineering A, vol.420 (2006) p322 [19] Alok Singh , M.
Online since: December 2012
Authors: Olga I. Bylya, Rudolf Vasin, Peter Chistyakov, Anatoly Muravlev
The experimental procedure
Materials.
Both regimes demonstrate some non trivial behavior of materials.
Palmieri, On the optimisation of superplastic forming processes by the finite-element method, Journal of Materials Processing Technology 143–144 (2003) 373–377
[9] R.A.Vasin, F.U.Enikeev, M.I.Mazurski, Applicability of Bibgham-type constitutive models for superplastic materials at different loading conditions, Materials Science Forum 170-172 (1994) 675-680
Zhang, Effect of strain rate path on cavitation in superplastic aluminium alloy, Materials Science and Engineering: A 463 (2007) 224-230
Both regimes demonstrate some non trivial behavior of materials.
Palmieri, On the optimisation of superplastic forming processes by the finite-element method, Journal of Materials Processing Technology 143–144 (2003) 373–377
[9] R.A.Vasin, F.U.Enikeev, M.I.Mazurski, Applicability of Bibgham-type constitutive models for superplastic materials at different loading conditions, Materials Science Forum 170-172 (1994) 675-680
Zhang, Effect of strain rate path on cavitation in superplastic aluminium alloy, Materials Science and Engineering: A 463 (2007) 224-230
Online since: October 2011
Authors: Pei Wen Hao, San Qiang Yang, Li Qun Tang, Tao Liu
This epoxy asphalt used by the U.S., Japan Epoxy Asphalt two steel bridge deck pavement materials at different thickness analysis of pavement deformation force.
The United States and Japan in the early 1970 s had developed big span steel box girder bridge deck pavement overall stress research, but hadn’t had a system force comparative analysis to epoxy asphalt pavement materials.
Road traffic Science , 2001,18 (6): 43-46
Journal of transportation engineering, 2002, 2 (2): 1-7
China journal of highway and transport, 1998, 13 (3): 32-40.
The United States and Japan in the early 1970 s had developed big span steel box girder bridge deck pavement overall stress research, but hadn’t had a system force comparative analysis to epoxy asphalt pavement materials.
Road traffic Science , 2001,18 (6): 43-46
Journal of transportation engineering, 2002, 2 (2): 1-7
China journal of highway and transport, 1998, 13 (3): 32-40.
Online since: June 2017
Authors: Mu Huo Yu, Jin Li Zhou, Shu Zhu, Wen Pin Jia, Chao Cheng, Elwathig A.M. Hassan
Experimental
Materials.
[4] Karger‐Kocsis J, Epoxy Polymers New Materials and Innovations, J. (2010) 1836-1836
Journal of applied polymer science, 80(9) (2001) 1504-1513
Journal of Materials Science, 46(2) (2011) 327-338
Journal of applied polymer science, 58(13) (1995) 2345-2355
[4] Karger‐Kocsis J, Epoxy Polymers New Materials and Innovations, J. (2010) 1836-1836
Journal of applied polymer science, 80(9) (2001) 1504-1513
Journal of Materials Science, 46(2) (2011) 327-338
Journal of applied polymer science, 58(13) (1995) 2345-2355