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Online since: January 2012
Authors: Jun Yanagimoto, Akira Yanagida, J. Jin Shan Liu
Hu: Materials Science and Engineering A, 2002, vol. 334, pp. 201-6
Sun: Journal of Materials Processing Technology, 2002, vol. 5876, pp. 1-7
Hagiwara: Journal of Materials Processing Technology, 2001, vol. 117, pp. 341-6
Lee: Materials Science and Engineering A, 2002, vol. 323, pp. 148-59
Shin: Materials Science and Engineering A, 2002, vol. 334, pp. 79-86.
Sun: Journal of Materials Processing Technology, 2002, vol. 5876, pp. 1-7
Hagiwara: Journal of Materials Processing Technology, 2001, vol. 117, pp. 341-6
Lee: Materials Science and Engineering A, 2002, vol. 323, pp. 148-59
Shin: Materials Science and Engineering A, 2002, vol. 334, pp. 79-86.
Online since: February 2014
Authors: Gao Feng Li, Sheng Hao Xiao, Qing Hai Luo
At present, the commonly used cool storage material includes water, ice, soil, eutectic salts, gas hydrates and the organic phase change materials.
2) Cool storage space
The seasonal natural ice storage technology store up natural cold in winter and use it in summer.
Journal of Agricultural Mechanization Research.
Cold Regions Science and Technology.
Journal of Refrigeration, Vol. 6(1984), p.50-57(in Chinese) [13] L.F.
Journal of PLA University of Science and Technology (Natural Science Edition).
Journal of Agricultural Mechanization Research.
Cold Regions Science and Technology.
Journal of Refrigeration, Vol. 6(1984), p.50-57(in Chinese) [13] L.F.
Journal of PLA University of Science and Technology (Natural Science Edition).
Online since: August 2007
Authors: Yannis Kyriakoglou, Paul Bowen, Michael Preuss
Larsson, Mechanics of Materials, 1997. 25(1): p. 1-35
Giannakopoulos, Materials Science and Engineering A, 1998. 254(1-2): p. 268-281
Lim, Journal of Materials Science, 1991. 26(8): p. 2031-2036
[6] B.S Shabel, R.F Young, Nondestructive Characterization of Materials II.
Withers: Applied Mechanics and Materials Vol. 1-2 (2004) p. 14 [10] D.
Giannakopoulos, Materials Science and Engineering A, 1998. 254(1-2): p. 268-281
Lim, Journal of Materials Science, 1991. 26(8): p. 2031-2036
[6] B.S Shabel, R.F Young, Nondestructive Characterization of Materials II.
Withers: Applied Mechanics and Materials Vol. 1-2 (2004) p. 14 [10] D.
Online since: July 2015
Authors: Masoud Farzaneh, Yu Mei Han
Journal of Applied Polymer Science, 2007. 105(2): p. 697-705
Materials and Corrosion, 2005. 56(2): p. 77-82
Journal of Materials Engineering and Performance, 2013. 22(1): p. 176-183
Materials Letters, 2006. 60(21–22): p. 2633-2637
Journal of Materials Science, 2005. 40(2): p. 263-283
Materials and Corrosion, 2005. 56(2): p. 77-82
Journal of Materials Engineering and Performance, 2013. 22(1): p. 176-183
Materials Letters, 2006. 60(21–22): p. 2633-2637
Journal of Materials Science, 2005. 40(2): p. 263-283
Online since: January 2015
Authors: Radmila Sinđić Grebović, Yulija Zolotova
Comprehensive method of energy efficiency of residential house (2014) Advanced Materials Research Vol. 953-954, pp. 1570-1577
Influence of glazing size on energy efficiency of timber-frame buildings (2012) Construction & building materials, vol. 30, pp. 92-99 [15] Žegarac Leskovar, V., Premrov, M.
Development and competitiveness improvement of the construction sector in Montenegro. (2014) Applied Mechanics and Materials.
Autonomous systems of solar energy supply under the weather conditions of Montenegro. (2014) Applied Mechanics and Materials.
Simple and effective C++ matrix-vector library for nonprofessionals in computer science (2009) International Journal of Computational Methods, 6 (1), pp. 43-74
Influence of glazing size on energy efficiency of timber-frame buildings (2012) Construction & building materials, vol. 30, pp. 92-99 [15] Žegarac Leskovar, V., Premrov, M.
Development and competitiveness improvement of the construction sector in Montenegro. (2014) Applied Mechanics and Materials.
Autonomous systems of solar energy supply under the weather conditions of Montenegro. (2014) Applied Mechanics and Materials.
Simple and effective C++ matrix-vector library for nonprofessionals in computer science (2009) International Journal of Computational Methods, 6 (1), pp. 43-74
Online since: August 2015
Authors: Weera Kompreyarat, Thanasin Bunnam
By using this technique, it has an ability to deal with variety of the amulet materials and colors in the same generation with less computation complexity.
Furthermore, each generation is able to construct from different materials, which, different in color too.
Srisupornwattana, Buddhist amulet coin recognition by genetic algorithm, Computer Science and Engineering Conference (ICSEC), 2013 International, pp.324,327, 4-6 Sept. 2013 [3] P.
Meesad, Buddha Amulet Information Retrieval using Digital Images Combined with Feature Extraction and K-nearest Neighbor Techniques, Information Technology Journal, Vol. 9, No. 2, July - December 2013
Tuli, Object Recognition by Template Matching Using Correlations and Phase Angle Method, International Journal of Advanced Research in Computer and Communication Engineering, Vol. 2, Issue 3, March 2013.
Furthermore, each generation is able to construct from different materials, which, different in color too.
Srisupornwattana, Buddhist amulet coin recognition by genetic algorithm, Computer Science and Engineering Conference (ICSEC), 2013 International, pp.324,327, 4-6 Sept. 2013 [3] P.
Meesad, Buddha Amulet Information Retrieval using Digital Images Combined with Feature Extraction and K-nearest Neighbor Techniques, Information Technology Journal, Vol. 9, No. 2, July - December 2013
Tuli, Object Recognition by Template Matching Using Correlations and Phase Angle Method, International Journal of Advanced Research in Computer and Communication Engineering, Vol. 2, Issue 3, March 2013.
Online since: June 2009
Authors: Lung Jieh Yang
Another very important
advantage is that PDMS can be suitable in low-temperature process and bonded with variable
materials [7].
Whitesides: Annual Review of Materials Science, Vol. 28, No.1 (1998) pp. 153-184
Quake: Science, Vol. 288, No. 5463 (2000) pp. 113-116
Yang: Sensors and Materials, Vol. 19, No. 7 (2007) pp. 391-402
Smith, Foundations of Material Science and Engineering, 2nd ed., McGraw-Hill, chapter 4, pp. 154-180 (1994)
Whitesides: Annual Review of Materials Science, Vol. 28, No.1 (1998) pp. 153-184
Quake: Science, Vol. 288, No. 5463 (2000) pp. 113-116
Yang: Sensors and Materials, Vol. 19, No. 7 (2007) pp. 391-402
Smith, Foundations of Material Science and Engineering, 2nd ed., McGraw-Hill, chapter 4, pp. 154-180 (1994)
Online since: August 2013
Authors: Jian Xiong Liu, Kun Xu, Zheng Yu Wu, Jiang Wei, Ting Ting Yu
Progress on fabrication of free-standing and through-hole TiO2 nanotube arrays
Kun Xu1, a, Jianxiong Liu1,b, Zhengyu Wu2,b ,Jiang Wei1,c ,Tingting Yu3,d
1Faculty of Materials Science & Engineering, 2Faculty of science,
Kunming University of Science and Technology, Kunming 650093, China
3Changzhou Chenguang Machiner Company Limited, Changzhou 213000, China
a xukun075@163.com, b ljx5192665@163.com, c 517136634@qq.com, d920490674@qq.com
Keywords: TiO2 nanotube, free-standing, through-hole.
It is deduced that if the barrier layer was removed by using electrochemical deposition which can deposit metals or other semiconducting materials (CdSe, CdTe, etc.) into the nanotubes [6].
Acknowledgements This work was financially supported by the National Natural Science Foundation (51062009), China.
C Vol.114 (2010), p. 15228 [2] D.Fang, K.L.Huang, S.Q.Liu, D.Y.Qin: Electrochemistry Communications Vol.11 (2009), p. 901 [3] G.H.Liu, N.Hoivik, K.Y.Wang, H.Jakobse: submitted to 2011 11th IEEE International Conference on Nanotechnology [4] Y..Jo, I.Jung, I.Lee, J.Choi, Y.Tak: Electrochemistry Communications Vol. 12 (2010), p. 616 [5] S.LI, G.Zhang: submitted to Journal of the Ceramic Society of Japan (2010) [6] Z.Zhang, D.Guo, Y.Xing, G.Zhang: Applied Surface Science Vol. 257 (2011), p. 4139 [7] J.Wang, Z.Q.Lin: Chem.
Technol Vol. 7 (2012), p. 731 [10] K.Kant, D.Losic: Phys.Status Solidi RRL Vol. 5 (2009), p. 139 [11] J.Lin, J.F.Chen, X.F.Chen: Electrochemistry Communications Vol. 12 (2010), p. 1062 [12] Q.W.Chen, D.S.Xu, Z.Y.Wu, Z.F.Liu: Nanotechnology 19, 365708 (2008) [13] G.H.Liu, K.Y.Wang, N.Hoivik, H.Jakobsen: Solar Energy Materials & solar cells Vol. 98(2012), p.24 [14] S.P.Albu, A.Ghicov, J.M.Macak, R.Hahn, P.Schmuki,: Nano Letter Vol. 7(2007), P.1286 [15] C.J.Lin, W.Y.Yu, Y.T.Lu, S.H.Chien: Chemical Communication (2008) 6031-6033 [16] J.J.Liao, S.W.Lin, N.Q.Pan, et al: Chemical Engineering Journal Vol. 211-212 (2012), p.343 [17] J.J.Liao, S.W.Lin, et al: Materials Characterization Vol. 66 (2012), p.24 [18] J.w.Ng, et al: Journal of Chemical Technology & Biotechnology Vol. 85 (2010), p.1061 [19] S.P.Albu, A.Ghicov, S.Berger, H.Jha, P.Schmuki: Electrochemistry Communication Vol. 12 (2010), P.1352 [20] Q.W.Chen, D.S.Xu: J.
It is deduced that if the barrier layer was removed by using electrochemical deposition which can deposit metals or other semiconducting materials (CdSe, CdTe, etc.) into the nanotubes [6].
Acknowledgements This work was financially supported by the National Natural Science Foundation (51062009), China.
C Vol.114 (2010), p. 15228 [2] D.Fang, K.L.Huang, S.Q.Liu, D.Y.Qin: Electrochemistry Communications Vol.11 (2009), p. 901 [3] G.H.Liu, N.Hoivik, K.Y.Wang, H.Jakobse: submitted to 2011 11th IEEE International Conference on Nanotechnology [4] Y..Jo, I.Jung, I.Lee, J.Choi, Y.Tak: Electrochemistry Communications Vol. 12 (2010), p. 616 [5] S.LI, G.Zhang: submitted to Journal of the Ceramic Society of Japan (2010) [6] Z.Zhang, D.Guo, Y.Xing, G.Zhang: Applied Surface Science Vol. 257 (2011), p. 4139 [7] J.Wang, Z.Q.Lin: Chem.
Technol Vol. 7 (2012), p. 731 [10] K.Kant, D.Losic: Phys.Status Solidi RRL Vol. 5 (2009), p. 139 [11] J.Lin, J.F.Chen, X.F.Chen: Electrochemistry Communications Vol. 12 (2010), p. 1062 [12] Q.W.Chen, D.S.Xu, Z.Y.Wu, Z.F.Liu: Nanotechnology 19, 365708 (2008) [13] G.H.Liu, K.Y.Wang, N.Hoivik, H.Jakobsen: Solar Energy Materials & solar cells Vol. 98(2012), p.24 [14] S.P.Albu, A.Ghicov, J.M.Macak, R.Hahn, P.Schmuki,: Nano Letter Vol. 7(2007), P.1286 [15] C.J.Lin, W.Y.Yu, Y.T.Lu, S.H.Chien: Chemical Communication (2008) 6031-6033 [16] J.J.Liao, S.W.Lin, N.Q.Pan, et al: Chemical Engineering Journal Vol. 211-212 (2012), p.343 [17] J.J.Liao, S.W.Lin, et al: Materials Characterization Vol. 66 (2012), p.24 [18] J.w.Ng, et al: Journal of Chemical Technology & Biotechnology Vol. 85 (2010), p.1061 [19] S.P.Albu, A.Ghicov, S.Berger, H.Jha, P.Schmuki: Electrochemistry Communication Vol. 12 (2010), P.1352 [20] Q.W.Chen, D.S.Xu: J.
Online since: February 2011
Authors: Nian Fen Wu, Song Jiang Ma, Fang Wen Li, Hai Wu Jia, Juan Yang, Jing Xiao, Mei Ling Fu
But its treatment effect mainly centers on performance of filter materials especially its lipophilicity.
Materials and methods Materials.
[3] Songjun Li and Laitao Luo: JiangXi Science Vol. 19(2001), p. 61–66,in Chinese
[5] Angel Cambiella, Enrique Ortea, Guillermo Rios, et al: Journal of HazardousMaterials Vol. 131(2006), p. 195–199
[8] Mingqin Jiang, Qingping Wang, Xiaoying Jin and Zuliang Chen: Journal of Hazardous Materials Vol. 170(2009),p. 332–339
Materials and methods Materials.
[3] Songjun Li and Laitao Luo: JiangXi Science Vol. 19(2001), p. 61–66,in Chinese
[5] Angel Cambiella, Enrique Ortea, Guillermo Rios, et al: Journal of HazardousMaterials Vol. 131(2006), p. 195–199
[8] Mingqin Jiang, Qingping Wang, Xiaoying Jin and Zuliang Chen: Journal of Hazardous Materials Vol. 170(2009),p. 332–339
Online since: August 2017
Authors: Ralf Müller, Charlotte Kuhn, José L. York Duran
Acknowledgement
The authors wish to thank IRTG 2057 / DFG for the financial support, Sebastian Schuff, member of the
Institute of Materials Science and Engineering at the University of Kaiserslautern and of the Research
Training Group 1932 "Stochastic Models for Innovations in the Engineering Sciences" funded by
DFG for providing the experimental data and microstructural images.
[2] Zhang, X., Zhang, Q., Zangmeister, T., Xiao, B., Andrä, H. and Ma, Z.: A three-dimensional realistic microstructure model of particle-reinforced metal matrix composites, Modeling and Simulation in Materials Science and Engineering, 22(3), 035010, (2014)
European Journal of Mechanics-A/Solids, 34:21-37, (2012)
Springer Science & Business Media, (2006)
Journal of Physical and Chemical Reference Data, Vol. 26, pp. 1195-1203, (1997)
[2] Zhang, X., Zhang, Q., Zangmeister, T., Xiao, B., Andrä, H. and Ma, Z.: A three-dimensional realistic microstructure model of particle-reinforced metal matrix composites, Modeling and Simulation in Materials Science and Engineering, 22(3), 035010, (2014)
European Journal of Mechanics-A/Solids, 34:21-37, (2012)
Springer Science & Business Media, (2006)
Journal of Physical and Chemical Reference Data, Vol. 26, pp. 1195-1203, (1997)