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Online since: April 2014
Authors: Anwar P.P. Abdul Majeed, Jamaluddin Mahmud, Siti Hajar Mohd Yusop, Mohd Nor Azmi Ab Patar
Mahmud: Humanities, Science and Engineering Research (SHUSER), 2012 IEEE Symposium on, (2012), p. 805
[3] J.
Journal of Medical and Bioengineering Vol. 2 (2013), p. 45 [6] C.
Popa: Applied Mechanics and Materials Vol. 430 (2013), p. 53 [9] F.
Hollister: Journal of the Mechanical Behaviour of Biomedical Materials II (2012), p. 3 [15] M.Liu, Q.H.Zhang, L.Y.Gao, and X.M.Qin: Applied Mechanics and Materials Vol. 66-68 (2011), p. 83 [16] B.
Gei: Smart Materials and Structures Vol. 22 (10) (2013), p. 4011
Journal of Medical and Bioengineering Vol. 2 (2013), p. 45 [6] C.
Popa: Applied Mechanics and Materials Vol. 430 (2013), p. 53 [9] F.
Hollister: Journal of the Mechanical Behaviour of Biomedical Materials II (2012), p. 3 [15] M.Liu, Q.H.Zhang, L.Y.Gao, and X.M.Qin: Applied Mechanics and Materials Vol. 66-68 (2011), p. 83 [16] B.
Gei: Smart Materials and Structures Vol. 22 (10) (2013), p. 4011
Online since: August 2018
Authors: Marhoun Ferhat, Leaford Nathan Henderson
Ferhat
Physics Department, the University of the West Indies, Mona, Jamaica
aleaford.henderson@uwimona.edu.jm
Keywords: solar energy, materials science, dye-sensitized solar cell, DSSC, photovoltaics, rare-earth, doping, energy, thin films, solar, titanium dioxide.
Thin film and hybrid solar devices, including Dye-Sensitized Solar Cells (DSSCs), are especially promising energy solutions, due to the low cost of materials and equipment required for their fabrication.
Several methods of fabricating nanoparticulate pastes for DSSCs have been studied; among them, the sol – gel method is especially favoured due to the low overall cost of materials, low toxicity of common aqueous synthetic routes, and high quality of the synthetic products obtained [2].
C 117, 25276 [4] Ko K H, Lee Y C and Y J Jung 2005 Journal of Colloid and Interface Science 283, 482 [5] Zhang J, Peng W, Chen Z, Chen H and Han L 2012 J.
Sci. 46, 855 [11] Tasic N, Brankovic Z, Marinkovic-Stanojevic Z and Brankovic G 2012 Science of Sintering 44, 365 [12] Wang HH, Chaochin S, Chung-Yin W, Tsai HB, WR Li 2014 International Journal of Nanotechnology 11
Thin film and hybrid solar devices, including Dye-Sensitized Solar Cells (DSSCs), are especially promising energy solutions, due to the low cost of materials and equipment required for their fabrication.
Several methods of fabricating nanoparticulate pastes for DSSCs have been studied; among them, the sol – gel method is especially favoured due to the low overall cost of materials, low toxicity of common aqueous synthetic routes, and high quality of the synthetic products obtained [2].
C 117, 25276 [4] Ko K H, Lee Y C and Y J Jung 2005 Journal of Colloid and Interface Science 283, 482 [5] Zhang J, Peng W, Chen Z, Chen H and Han L 2012 J.
Sci. 46, 855 [11] Tasic N, Brankovic Z, Marinkovic-Stanojevic Z and Brankovic G 2012 Science of Sintering 44, 365 [12] Wang HH, Chaochin S, Chung-Yin W, Tsai HB, WR Li 2014 International Journal of Nanotechnology 11
Online since: August 2014
Authors: Yu Hua Jin, Zhen You Huang, Chang Feng Li
Table 1 Chemical compositions of base materials.
Journal of Materials Science 2008; 43(9): 3296—3304
Materials and Design 2010 ;3324–3330
Metallurgical and Materials Transactions, Progress Science Journals 2004; 35B(4) :777
The formation mechanism of the friction stir welds, Materials Science and Technology Conference and Exhibition.
Journal of Materials Science 2008; 43(9): 3296—3304
Materials and Design 2010 ;3324–3330
Metallurgical and Materials Transactions, Progress Science Journals 2004; 35B(4) :777
The formation mechanism of the friction stir welds, Materials Science and Technology Conference and Exhibition.
Online since: January 2013
Authors: Ming Shan Yang, Wen Jun Wang, Fei Jun Wang, You Qi Li, Jing Chen, Zi Qiang Shao, Lei Qiu
Study on the Synthesis CMCAB Electro spinning Carbon-coated LiFePO4 Anode Materials
Lei Qiu1, 2,a, Ziqiang Shao1, 2,b, Mingshan Yang3,c ,Wenjun Wang1, 2, Feijun Wang1, 2, Youqi Li4,d,Jing Chen4
1 College of Material Science and Engineering, Beijing Institute of technology, Beijing 100081, China
2 Beijing Cellulose and Derivative Materials Engineering Technology Research Center, Beijing 100081, China
3 Department of Material Science and Engineering, Beijing Key Lab of Special Elastomer Composites Materials, Beijing Institute of Petrochemical Technology, Beijing 102617,P.R.China
4Chong Qing Li Hong Fine Chemicals CO., LTD
aqiulei1010@126.com, bshaoziqiang@263.net, cyangms001@126.com, dlise0262@hotmail.com
Keywords: electrostatic spinning, cellulose derivatives, lithium-ion battery, anode materials LFP
Abstract.
So that it has been a hot topic of research and development on anode materials of lithium ion battery[1].
Experimental Materials.
Journal of Power Sources.Vol.2012,202,p.364 [3] Jinli Yang, Wang, Jiajun, Li, Xifei, Wang, Dongniu, Liu, Jian, Liang, Guoxian, Gauthier, Michel.Journal of Materials Chemistry.Vol.2012,22(15),p.7537 [4] C.
Journal of Biomedical Materials Research Part B-Applied Biomaterials.Vol.2011,97B(1),p.114 [7] Long Xie, Shao, Ziqiang, Wang, Wenjun.
So that it has been a hot topic of research and development on anode materials of lithium ion battery[1].
Experimental Materials.
Journal of Power Sources.Vol.2012,202,p.364 [3] Jinli Yang, Wang, Jiajun, Li, Xifei, Wang, Dongniu, Liu, Jian, Liang, Guoxian, Gauthier, Michel.Journal of Materials Chemistry.Vol.2012,22(15),p.7537 [4] C.
Journal of Biomedical Materials Research Part B-Applied Biomaterials.Vol.2011,97B(1),p.114 [7] Long Xie, Shao, Ziqiang, Wang, Wenjun.
Online since: September 2013
Authors: Peng Fei Wang, Guang Qi Li, Feng Yi Li, Lei Chen, Wei Xin Chen
Research on the Application of Fly Ash in High Water Filling Material
Fengyi Li 1, a, Lei Chen2, b, Guangqi Li2, c , Weixin Chen1,d and Pengfei Wang2, e
1 Mining Research Institute,Heilongjiang University of Science &Technology, Harbin ,150022 ,China. 2 College of Safety Engineering ,Heilongjiang University of Science and Technology, Harbin, 150022, China
akyyjylfy@163.com, bchenlei2662@163.com, cliguangqi@163.com, dchenweixin966@163.com, ehljkjdxaqwpf@163.com
Keywords: fly ash; high water material; comparative test .
In recent years, a new technology - high water rapid solidification materials (referred to as the high water material) was developed successfully[2], which is to reduce the surface vegetation damage and deformation of structures caused by mining, but the high water material filling cost which is about 625.72 yuan by filling one cubic is too high.
If you want to rapidly popularize high water material in coal mine, the selection of materials is very important.
The application of materials in Babao mine Project Overview.
References [1] Yuzhu Su, Jing Yang, Hongwen Ma, YiMiao Nie,Li Ruchen Li: Journal of Geoscience.2 (2006),p.354-360 [2] Lihua Shen, Yuan TIAN, Jinlong Jiang:Journal of Science Research.5(1999),p 27-28 [3] Jifeng Yu, Zuozhen Yu, Xiuying Wang: Journal of Shandong university of Science and Technology(Natural Science).3 (2001).p 106-108 [4] HaoWu,Xuemao Guan: Journal of FLY ASH COMPRENSIVE UTILIZATION.6(2003),P17-19 [5] Zuguo Cheng: Journal of Mining Technology.5 (2012).P 25-26 [6] Zhixiang Liu: Doctoral Dissertation of Yat-sen University,2005,P 106
In recent years, a new technology - high water rapid solidification materials (referred to as the high water material) was developed successfully[2], which is to reduce the surface vegetation damage and deformation of structures caused by mining, but the high water material filling cost which is about 625.72 yuan by filling one cubic is too high.
If you want to rapidly popularize high water material in coal mine, the selection of materials is very important.
The application of materials in Babao mine Project Overview.
References [1] Yuzhu Su, Jing Yang, Hongwen Ma, YiMiao Nie,Li Ruchen Li: Journal of Geoscience.2 (2006),p.354-360 [2] Lihua Shen, Yuan TIAN, Jinlong Jiang:Journal of Science Research.5(1999),p 27-28 [3] Jifeng Yu, Zuozhen Yu, Xiuying Wang: Journal of Shandong university of Science and Technology(Natural Science).3 (2001).p 106-108 [4] HaoWu,Xuemao Guan: Journal of FLY ASH COMPRENSIVE UTILIZATION.6(2003),P17-19 [5] Zuguo Cheng: Journal of Mining Technology.5 (2012).P 25-26 [6] Zhixiang Liu: Doctoral Dissertation of Yat-sen University,2005,P 106
Online since: October 2017
Authors: Bambang Sunendar Purwasasmita, La Aba, Inyoman Nyoman Sudiana, Haji Aripin, Seitaro Mitsudo, Muhammad Zamrun Firihu, La Ode Ngkoimani, Prima Endang Susilowati, Komang Gde Suastika, Lina Lestari
Experimental Method
Materials.
Samuneva. 1997, Journal of Sol- Gel Science and Technology, 8, pp. 937 – 940 [2] Zaitoun, M.
Yeatman, 1998, Journal of Sol-Gel Science and Technology, 13, p. 783 [4] Xia, Z., G.
Ban, W.A.W.A.K.Ghani, 2009, MASAUM Journal of Basic and Applied Sciences, 1, pp. 512 – 515
Aripin, Materials Science Forum , Vo. 872, 2016, pp.114-117 [15] I.
Samuneva. 1997, Journal of Sol- Gel Science and Technology, 8, pp. 937 – 940 [2] Zaitoun, M.
Yeatman, 1998, Journal of Sol-Gel Science and Technology, 13, p. 783 [4] Xia, Z., G.
Ban, W.A.W.A.K.Ghani, 2009, MASAUM Journal of Basic and Applied Sciences, 1, pp. 512 – 515
Aripin, Materials Science Forum , Vo. 872, 2016, pp.114-117 [15] I.
Online since: December 2013
Authors: Jiří Podešva
The very old use of textile materials is production of fabric bags.
Textile Research Journal, June 1995, vol. 65, no. 6 324-330, ISSN: 0040-5175
International Journal of Impact Engineering.
International Journal of Engineering Science, Volume 38, Issue 17, November 2000, Pages 1895-1906, ISSN: 0020-7225
International Journal of Engineering Science, Volume 39, Issue 1, January 2001, Pages 1-13, ISSN: 0020-7225
Textile Research Journal, June 1995, vol. 65, no. 6 324-330, ISSN: 0040-5175
International Journal of Impact Engineering.
International Journal of Engineering Science, Volume 38, Issue 17, November 2000, Pages 1895-1906, ISSN: 0020-7225
International Journal of Engineering Science, Volume 39, Issue 1, January 2001, Pages 1-13, ISSN: 0020-7225
Online since: July 2014
Authors: Fang Yuan, Yan Hua Li, Guo Min Lin
Introduction of Intelligent Materials
Intelligent material is the fourth generation materials after the natural materials, polymer materials and artificial materials, it is one of the important development directions of the modern high-tech materials.Concept of intelligent materials was proposed first by Japan scientist in 1989.
Intelligent materials can be divided into optical fiber, shape memory alloys, piezoelectronic materials, magnetostrictive materials and electrostrictive materials etc. according to their different functions.
Relationship between polymer deformation and temperature Conclusion Development and widely application of intelligent materials will result in a major revolution in materials science.
Principles and Applications of Fiber Grating Sensor [J].Journal of Chongqing Normal University, 2009 (04): 64-68 [2] LI Bing.
Journal of Chongqing Institute of Technology: 2009 (2): 131-135 [6] PEI Xianru, GAO Hairong.
Intelligent materials can be divided into optical fiber, shape memory alloys, piezoelectronic materials, magnetostrictive materials and electrostrictive materials etc. according to their different functions.
Relationship between polymer deformation and temperature Conclusion Development and widely application of intelligent materials will result in a major revolution in materials science.
Principles and Applications of Fiber Grating Sensor [J].Journal of Chongqing Normal University, 2009 (04): 64-68 [2] LI Bing.
Journal of Chongqing Institute of Technology: 2009 (2): 131-135 [6] PEI Xianru, GAO Hairong.
Online since: February 2016
Authors: Martin Doškář, David Šedlbauer
The presented work deals with materials consisting of circular particles within a matrix.
Second-order computational homogenization of heterogeneous materials with periodic microstructure.
Computational materials science, 2008, 42(2): 352-367.
Science, 2003, 301.5641: 911-914.
Quantitative description of the morphology and microdamage of composite materials.
Second-order computational homogenization of heterogeneous materials with periodic microstructure.
Computational materials science, 2008, 42(2): 352-367.
Science, 2003, 301.5641: 911-914.
Quantitative description of the morphology and microdamage of composite materials.
Online since: October 2007
Authors: Wei Jie Lin, Rui Yang, Yin Ping Zhang, Qing Wu Zhang, Yan Zhang
Experimental
Materials and preparation of MEPCM. n-tetradecane was from Acros Organics.
DSC results showed the obtained microcapsules are promising functional phase change materials.
Zou: Chinese Journal of Chemistry 22 (2004), p. 411 [3] J.K.
Ren: Journal of Functional Materials 11 (2005), p. 1722 [5] M.N.A.
Brian: Journal of Colloid and Interface Science 208 (1998), p. 49 [7] P.J.
DSC results showed the obtained microcapsules are promising functional phase change materials.
Zou: Chinese Journal of Chemistry 22 (2004), p. 411 [3] J.K.
Ren: Journal of Functional Materials 11 (2005), p. 1722 [5] M.N.A.
Brian: Journal of Colloid and Interface Science 208 (1998), p. 49 [7] P.J.