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Online since: August 2009
Authors: Si Rong Zhu, Xiao Yu Zhang, Zhuo Qiu Li, Ya Wen Dai
Virtual Experimental Studies on
Carbon Fiber Smart Materials Resistivity Tomography
Yawen Daia, Zhuoqiu Lib, Xiaoyu Zhang, Sirong Zhu
School of Science, Wuhan University of Technology, Wuhan,China
a
daiyaweny@163.com, bscience@whut.edu.cn
Keywords: carbon fiber smart materials,virtual experiment,resistivity tomography, field monitoring.
Introduction With development of smart materials and sensor technology, it is possible to diagnose and supervise security service characteristics of critical civil engineering [1].
With conductivity and piezoresistivity of smart materials and resistivity tomography, it is hopeful to realize visible field monitoring on civil engineering structure.
Acknowledgement The work was supported by the National Natural Science Foundation of China (No. 50878169).
Chung, Carbon Fiber-Reinforced Cement as a Strain-Sensing Coating, Cement and Concrete Research, 2001, 31:665-667 [4] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Zhu Sirong, Manufacture and Characteristics of Cement-Based Smart Surface, Huazhong University of Science and Technology Journal (natural science edition), 2006, 34(8): 97-99 [5] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Study on Sensing Feature of Carbon Fiber Smart Layer, Huazhong University of Science and Technology Journal 2008, 25(2): 36-38 [6] Mei Shuhui, Array Simulation on Carbon Fiber Smart Layer and its Structure [D], Wuhan University of Technology Master Paper, 2007.5
Introduction With development of smart materials and sensor technology, it is possible to diagnose and supervise security service characteristics of critical civil engineering [1].
With conductivity and piezoresistivity of smart materials and resistivity tomography, it is hopeful to realize visible field monitoring on civil engineering structure.
Acknowledgement The work was supported by the National Natural Science Foundation of China (No. 50878169).
Chung, Carbon Fiber-Reinforced Cement as a Strain-Sensing Coating, Cement and Concrete Research, 2001, 31:665-667 [4] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Zhu Sirong, Manufacture and Characteristics of Cement-Based Smart Surface, Huazhong University of Science and Technology Journal (natural science edition), 2006, 34(8): 97-99 [5] Zhang Xiaoyu, Li Zhuoqiu, Song Xianhui, Study on Sensing Feature of Carbon Fiber Smart Layer, Huazhong University of Science and Technology Journal 2008, 25(2): 36-38 [6] Mei Shuhui, Array Simulation on Carbon Fiber Smart Layer and its Structure [D], Wuhan University of Technology Master Paper, 2007.5
Online since: August 2018
Authors: Teik Cheng Lim
Lim: Journal of Materials Science, vol. 40 (2005) p. 3275-3277
Lim: Journal of Materials Science, vol. 47 (2012) p. 368-373
Lim: Journal of Materials: Design and Applications, vol. 229 (2015) p. 447-454
Lim: International Journal of Mechanical and Materials Engineering, vol. 11 (2016) p. 13
Lim: Journal of Engineering Materials and Technology, vol. 138 (2016) p. 041011
Lim: Journal of Materials Science, vol. 47 (2012) p. 368-373
Lim: Journal of Materials: Design and Applications, vol. 229 (2015) p. 447-454
Lim: International Journal of Mechanical and Materials Engineering, vol. 11 (2016) p. 13
Lim: Journal of Engineering Materials and Technology, vol. 138 (2016) p. 041011
Online since: August 2011
Authors: Pei Hao Lin, Shun Kang Pan, Hua Mei Wan, Lei Wang
References
[1] J.H.Liu, T.Y.Ma, H.Tong, W.Luo, M.Yan: Journal of Magnetism and Magnetic Materials.
[2] G.Z.Xie, P.Wang, B.S.Zhang, L.K.Yuan, Y.Shi, P.H.Lin, H.X Lu: Journal of Magnetism and Magnetic Materials.
[3] U.R.Lima, M.C.Nasar, R.S.Nasar, M.C.Rezende, J.H.Araújo: Journal of Magnetism and Magnetic Materials.
[7] V.Petrov, V.V.Gagulin: Inorganic Materials.
(in Chinese) [11] S.S.Kim, S.T.Kim, J.M.Ahn, K.H.Kim: Journal of Magnetism and Magnetic Materials.
[2] G.Z.Xie, P.Wang, B.S.Zhang, L.K.Yuan, Y.Shi, P.H.Lin, H.X Lu: Journal of Magnetism and Magnetic Materials.
[3] U.R.Lima, M.C.Nasar, R.S.Nasar, M.C.Rezende, J.H.Araújo: Journal of Magnetism and Magnetic Materials.
[7] V.Petrov, V.V.Gagulin: Inorganic Materials.
(in Chinese) [11] S.S.Kim, S.T.Kim, J.M.Ahn, K.H.Kim: Journal of Magnetism and Magnetic Materials.
Online since: July 2009
Authors: Andrew John Ruys, D.T. Chavara, Cyndi X. Wang
Ohtsuki: Evaluation of in vitro
bioactivity and biocompatibility of Bioglass®-reinforced polyethylene composite Journal of
Materials Science: Materials in Medicine 8(12), (1997), 809-813
Journal of Material Science Letters 6:188, (1987), 188-190. [9] J.
Materials Science and Engineering A 362(1-2), (2003), p. 61-80
Materials Science Forum 308-311, (1999), p. 319-22
Journal of Materials Science 28(10), (1993), p. 2820-26
Journal of Material Science Letters 6:188, (1987), 188-190. [9] J.
Materials Science and Engineering A 362(1-2), (2003), p. 61-80
Materials Science Forum 308-311, (1999), p. 319-22
Journal of Materials Science 28(10), (1993), p. 2820-26
Online since: July 2011
Authors: Yong Bo Wu, Yin Biao Guo, Zhi Qiang Liang, Yun Feng Peng, T. Jiang, X. Chen
Research on the Ductile Chip Formation in Grinding of Brittle Materials
Y.F.
Acknowledgement This work was supported by China National Natural Science Foundation (No.50905150).
Stephenson: Advances in Technology of Materials and Materials Processing Vol. 8(1) (2006), pp: 13-22
McPherson: Fine Scale Abrasive Wear of Ceramics by a Plastic Cutting Process, Science of Hard Materials, Institute Physics Conference Series Vol. 75(9) 1986, pp: 856-871
Li: Journal of Materials Processing Technology Vol. 113 (2001), pp: 348-354
Acknowledgement This work was supported by China National Natural Science Foundation (No.50905150).
Stephenson: Advances in Technology of Materials and Materials Processing Vol. 8(1) (2006), pp: 13-22
McPherson: Fine Scale Abrasive Wear of Ceramics by a Plastic Cutting Process, Science of Hard Materials, Institute Physics Conference Series Vol. 75(9) 1986, pp: 856-871
Li: Journal of Materials Processing Technology Vol. 113 (2001), pp: 348-354
Online since: February 2013
Authors: Gui Juan Dong
Thesis .Is the library science professional material centralized collection and the national yearbook material collection center.
Literature types include: academic journals, Ph.D.
Beijing: China environmental science press, 2011:1-3
Environmental science dictionary [M].
Journal of ecological environment, 2012, 21 (4) : 786-792
Literature types include: academic journals, Ph.D.
Beijing: China environmental science press, 2011:1-3
Environmental science dictionary [M].
Journal of ecological environment, 2012, 21 (4) : 786-792
Online since: December 2011
Authors: Rui Qi Li, Bo Hong Li, Xiao Min Ren, Shan Tao Yan, Zheng Jin, Chuan Li Qin, Dong Yu Zhao
Hybrid Supercapacitors Based on Polyaniline and Carbon Aerogels Composite Electrode Materials
Zheng Jin1, 2, a, Dongyu Zhao1, 2, b, Bohong Li1, c, Xiaomin Ren1, d,
Shantao Yan1, e , Chuanli Qin1, 2, f and Ruiqi Li3,g
1Laboratory of Functional Polymer Materials, School of Chemistry and Material Sciences, Heilongjiang University, Harbin, Heilongjiang, China
2Key Laboratory of Chemical Engineering Process&Technology for High-efficiency Conversion,College of Heilongjiang Province
3School of Material Science and Chemical Engineering, Harbin Engineering University, Harbin, P.
The performance of supercapacitors is depends on electrode materials which can be categorised into three types: carbon electrode materials, metal oxide electrode materials and conductive polymer electrode materials [2].
Park: Journal of Powers Sources Vol. 111 (2002), p. 185
Liu: Current Opinion in Solid and Materials Science Vol. 12 (2008), p. 9
Qiao: Journal of Colloid and Interface Science Vol. 331 (2009).
The performance of supercapacitors is depends on electrode materials which can be categorised into three types: carbon electrode materials, metal oxide electrode materials and conductive polymer electrode materials [2].
Park: Journal of Powers Sources Vol. 111 (2002), p. 185
Liu: Current Opinion in Solid and Materials Science Vol. 12 (2008), p. 9
Qiao: Journal of Colloid and Interface Science Vol. 331 (2009).
Online since: August 2013
Authors: Qiang Yi Xi
Study on Materials Selection and Construction of Digital Language Lab Based on Properties of Electronic Materials
Qiangyi Xi
Office of Foreign Languages School, Jinyinhu Campus of Wuhan Polytechnic University, Machi Road 1#, Hankou, Wuhan, China
bondyxi@hotmail.com
Keywords: equipment; digital language lab; materials selection; construction environment
Abstract.
This paper mainly deals with the materials selection and the construction of the digital language lab based on properties of electronic materials, and thus provides reference to set up more efficient and more effective language labs.
It mainly comes from the moist-keeping materials, insulation materials, floor glue, paints, plastics, wallpaper and so on.
In order to keep users’ health, so in the decoration, it is a must to use building materials and decorative materials of low or no formaldehyde concentration.
Summary With the development of science and technology, more useful electronic materials can be applied in language training field, and there are many aspects concerning labs construction worth careful research, such as materials selection, installation, debugging, energy saving, room decoration, etc.
This paper mainly deals with the materials selection and the construction of the digital language lab based on properties of electronic materials, and thus provides reference to set up more efficient and more effective language labs.
It mainly comes from the moist-keeping materials, insulation materials, floor glue, paints, plastics, wallpaper and so on.
In order to keep users’ health, so in the decoration, it is a must to use building materials and decorative materials of low or no formaldehyde concentration.
Summary With the development of science and technology, more useful electronic materials can be applied in language training field, and there are many aspects concerning labs construction worth careful research, such as materials selection, installation, debugging, energy saving, room decoration, etc.
Online since: April 2012
Authors: Wei Hua Zhang, Kai Liu, Fang Wang, Yuan Rong Wang
While the related specifications at home and abroad have given certain requirements about technical indexes of raw materials, the requirements are selected according to the average level of various materials’ properties.
These materials can be used for various grades of municipal roads.
Journal of Tongji University (Naturel Science), 2011, 39(5):699-704 [3] Wang Long, Xie Xiaoguang, Feng Decheng.
Journal of Chang’an University (Natural Science Edition), 2007, 27(5):1-5
Journal of China & Foreign Highway, 2010, 30(2):208-212.
These materials can be used for various grades of municipal roads.
Journal of Tongji University (Naturel Science), 2011, 39(5):699-704 [3] Wang Long, Xie Xiaoguang, Feng Decheng.
Journal of Chang’an University (Natural Science Edition), 2007, 27(5):1-5
Journal of China & Foreign Highway, 2010, 30(2):208-212.
Online since: October 2011
Authors: Jian Hong Deng, Wen Biao Li, Da Hua Jiang
Journal of solar energy, 2006,27(7):725-730
Materials science and engineering, 2005,21(1): 276-279 4] Li hui, FangGuiYin.
Journal of materials science and engineering, 2001,21(6):842-844 [5] JiangDaHua, ZhouYang, carleton ruthling.
Journal of chemical industry, 2004,55(4):678-681
Materials science and engineer, 2001,17(5):137-139
Materials science and engineering, 2005,21(1): 276-279 4] Li hui, FangGuiYin.
Journal of materials science and engineering, 2001,21(6):842-844 [5] JiangDaHua, ZhouYang, carleton ruthling.
Journal of chemical industry, 2004,55(4):678-681
Materials science and engineer, 2001,17(5):137-139