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Online since: March 2017
Authors: Ying Jie Cai, Md. Nahid Pervez, Faizan Shafiq, Muhammad Munib Jilani, Zahid Sarwar
Experimental
Materials and method
The fabric used in this study was 100% cotton (160 g/m2).
Infrared spectroscopy is very useful in the structural elucidation of various materials.
Journal of Applied Polymer Science. 21(1977). 899-903
Journal of applied polymer science. 46(1992). 2239-2244
American Journal of Polymer Science & Engineering. 3(2015). 90-99
Infrared spectroscopy is very useful in the structural elucidation of various materials.
Journal of Applied Polymer Science. 21(1977). 899-903
Journal of applied polymer science. 46(1992). 2239-2244
American Journal of Polymer Science & Engineering. 3(2015). 90-99
Online since: February 2014
Authors: Gui Long Liu, Chun Lu, Shuo Wang, Xu Cui
Journal of Functional Polymers, 2012,25(2).184-190
[3] Yan Tianting.
Influences of mechanical properties of composite materials.
IEEE Transactions on Plasma Science,2012, 40 (2):492-496 [19]Aida, Hideo, Takeda, Hideoshi, Aota, Natsuko, Kim, Seong-Woo, Koyama, Koji.
Sensors and Materials, 2013, 25 (3):189-204 [20]Subasri R, Jyothirmayi A, Reddy D S.
Chinese Journal of Materials Research, 200519(2):159-164
Influences of mechanical properties of composite materials.
IEEE Transactions on Plasma Science,2012, 40 (2):492-496 [19]Aida, Hideo, Takeda, Hideoshi, Aota, Natsuko, Kim, Seong-Woo, Koyama, Koji.
Sensors and Materials, 2013, 25 (3):189-204 [20]Subasri R, Jyothirmayi A, Reddy D S.
Chinese Journal of Materials Research, 200519(2):159-164
Online since: June 2012
Authors: Amin Chegenizadeh, Hamid Nikraz
Material used to make reinforcement may be obtained from paper, metal, nylon, polyester and other materials having widely varied physical properties.
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibres, Journal of Applied Clay Science 38, 23-32
[6] A.Chegenizadeh, and Prof.Hamid Nikraz , “Modulus of Elasticity of Reinforced Clay” , Journal of Advanced Materials Research, 261-263, 969-973, DOI 10.4028/www.scientific.net/AMR.261-263.969,(2011) [7] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Permeability Test on Reinforced Clayey Sand”, Journal of World Academy of Science, Engineering and Technology 78 2011, 130-133, (2011) [8] A.Chegenizadeh, and Prof.Hamid Nikraz, “Automated Shear Test on Reinforced Clayey Sand”, Journal of Advanced Materials Research, 261-263, 1019-1023, DOI: 10.4028/www.scientific.net/AMR.261-263.1019,(2011) [9] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Investigation on Compaction Characteristics of Reinforced Soil”, Journal of Advanced Materials Research, 261-263, 964,10.4028/www.scientific.net/AMR.261-263.964, (2011) [10] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Shear Test on Reinforced Clay”, Journal of Advanced Materials Research, 250-253, 3223, DOI: 10.4028/www.scientific.net/AMR.250-253.3223,(2011) [11
] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Study on Modulus of Elasticity of Reinforced Clay”, Journal of Advanced Materials Research, 243-249, 5885, DOI: 10.4028/www.scientific.net/AMR.243-249.5885,(2011) [12] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Investigation on Strength of Fiber Reinforced Clay”, Journal of Advanced Materials Research, 261-263, 957, 957-963, DOI:10.4028/www.scientific.net/AMR.261-263.957,(2011) [13] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Geotechnical Parameters of Composite Soil “, Journal of Advanced Materials Research, Advanced design technology ,1651,(2011) [14] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Composite Soil: Fiber Inclusion and Strength”, Journal of Advanced Materials Research,1646, (2011) [15] A.Chegenizadeh, and Hamid Nikraz ,Interaction of soil and short fiber, , ASTM digital library,(2012) [16] A.Chegenizadeh, and Hamid Nikraz, Composite Clayey Sand and Short Fiber, Advanced Materials Research Journal, (2012) [17] Freitag, D.R. (1986) Soil randomly
and Choi, T. (1982) “A probabilistic theory of strength of short-fibre composites with variable fibre length and orientation”, Journal of Materials Science 17, pp. 1003–1011 [19] Hoare, D.J. (1979) “Laboratory study of granular soils reinforced with randomly oriented discrete fibres”, Proceedings of the International Conference on Soil Reinforcement Paris, France 1, pp. 47–52
REFERENCES [1] Akbulut, S., Arasan, S. and Kalkan, E. (2007) Modification of clayey soils using scrap tire rubber and synthetic fibres, Journal of Applied Clay Science 38, 23-32
[6] A.Chegenizadeh, and Prof.Hamid Nikraz , “Modulus of Elasticity of Reinforced Clay” , Journal of Advanced Materials Research, 261-263, 969-973, DOI 10.4028/www.scientific.net/AMR.261-263.969,(2011) [7] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Permeability Test on Reinforced Clayey Sand”, Journal of World Academy of Science, Engineering and Technology 78 2011, 130-133, (2011) [8] A.Chegenizadeh, and Prof.Hamid Nikraz, “Automated Shear Test on Reinforced Clayey Sand”, Journal of Advanced Materials Research, 261-263, 1019-1023, DOI: 10.4028/www.scientific.net/AMR.261-263.1019,(2011) [9] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Investigation on Compaction Characteristics of Reinforced Soil”, Journal of Advanced Materials Research, 261-263, 964,10.4028/www.scientific.net/AMR.261-263.964, (2011) [10] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Shear Test on Reinforced Clay”, Journal of Advanced Materials Research, 250-253, 3223, DOI: 10.4028/www.scientific.net/AMR.250-253.3223,(2011) [11
] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Study on Modulus of Elasticity of Reinforced Clay”, Journal of Advanced Materials Research, 243-249, 5885, DOI: 10.4028/www.scientific.net/AMR.243-249.5885,(2011) [12] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Investigation on Strength of Fiber Reinforced Clay”, Journal of Advanced Materials Research, 261-263, 957, 957-963, DOI:10.4028/www.scientific.net/AMR.261-263.957,(2011) [13] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Geotechnical Parameters of Composite Soil “, Journal of Advanced Materials Research, Advanced design technology ,1651,(2011) [14] A.Chegenizadeh, and Prof.Hamid Nikraz ,”Composite Soil: Fiber Inclusion and Strength”, Journal of Advanced Materials Research,1646, (2011) [15] A.Chegenizadeh, and Hamid Nikraz ,Interaction of soil and short fiber, , ASTM digital library,(2012) [16] A.Chegenizadeh, and Hamid Nikraz, Composite Clayey Sand and Short Fiber, Advanced Materials Research Journal, (2012) [17] Freitag, D.R. (1986) Soil randomly
and Choi, T. (1982) “A probabilistic theory of strength of short-fibre composites with variable fibre length and orientation”, Journal of Materials Science 17, pp. 1003–1011 [19] Hoare, D.J. (1979) “Laboratory study of granular soils reinforced with randomly oriented discrete fibres”, Proceedings of the International Conference on Soil Reinforcement Paris, France 1, pp. 47–52
Online since: March 2020
Authors: Duo Qiang Liang, Yong Deng, Ya Qin Guo
Calculation of Carbon-Titanium-Oxygen Conductivity by First Principle
Yaqin Guo1,a*, Duoqiang Liang2, Yong Deng3
1School of Mining and Environmental Engineering, Chongqing Vocational Institute of Engineering, Chongqing 402260, China / College of Materials Science and Engineering, Chongqing University, Chongqing 400044, China
2Innovation Center for Metal Resources Utilization and Environment Protection, School of Resources, Environment and Materials, Guangxi Key Laboratory of Processing for Non-ferrous Metal and Featured Materials, Guangxi University, Nanning 530004, China
3Faculty of Metallurgical and Energy Engineering, Kunming University of Science and Technology, Kunming 650093, China
a*yaqin.guo@cqu.edu.cn
Keywords: titanium dioxide; conductivity; first-principles calculation
Abstract.
Methods Castep, a module in materials studio2018 is used in the paper.
Progress in Materials Science, Volume 58, Issue 5, June 2013, Pages 565-635 [10] Shamik Chowdhury, Rajasekhar Balasubramanian.
Progress in Materials Science, Volume 90, October 2017, Pages 224-275 [11] Syed Mustansar Abbas, Syed Tajammul Hussain, Saqib Ali, et al.
Materials Letters, Volume 107, 15 September 2013, Pages 158-161 [12] Vibulyaseak Kasimanat (Guy), Deepracha Siwada (Benz), Ogawa Makoto.
Methods Castep, a module in materials studio2018 is used in the paper.
Progress in Materials Science, Volume 58, Issue 5, June 2013, Pages 565-635 [10] Shamik Chowdhury, Rajasekhar Balasubramanian.
Progress in Materials Science, Volume 90, October 2017, Pages 224-275 [11] Syed Mustansar Abbas, Syed Tajammul Hussain, Saqib Ali, et al.
Materials Letters, Volume 107, 15 September 2013, Pages 158-161 [12] Vibulyaseak Kasimanat (Guy), Deepracha Siwada (Benz), Ogawa Makoto.
Online since: August 2018
Authors: Fu Tian Liu, Yuan Yuan Song, Yuan Yuan Zhou, Yang Wang, Lu Ping Yang
Materials Research Bulletin, 39 (2004) 475-488
Journal of Materials Science, 27(9) (1992) 2406-2412
Bulletin of Materials Science, 25(3) (2002) 191-196
Journal of Materials Science, 26(1) (1991) 93-98
Journal of Materials Science, 24(12) (1989) 4239-4245.
Journal of Materials Science, 27(9) (1992) 2406-2412
Bulletin of Materials Science, 25(3) (2002) 191-196
Journal of Materials Science, 26(1) (1991) 93-98
Journal of Materials Science, 24(12) (1989) 4239-4245.
Online since: January 2005
Authors: Y.K. Kong, H.L. Seet, Xiao Ping Li, Z.J. Zhao
Development of High Permeability Nanocrystalline
Ferromagnetic Materials by Pulse Plating
X.P.
Introduction Magnetically soft materials are essential in the development of high sensitivity, very weak magnetic field bio-sensors.
It was shown [2] that for some Fe-based nanocrystalline materials, the magnetic permeability largely increased as the crystalline grain size was reduced from 100 nm to 10 nm.
Muresan: Journal of Applied Electrochemistry, 21 (1991), 565-574 [6] Michel Troyon, Lin Wang: Applied Surface Science, 103 (1996), 517-523 [7] S.H.
Li, et al: Materials Science Forum Vols. 437-438 (2003), 49-52 [8] R.
Introduction Magnetically soft materials are essential in the development of high sensitivity, very weak magnetic field bio-sensors.
It was shown [2] that for some Fe-based nanocrystalline materials, the magnetic permeability largely increased as the crystalline grain size was reduced from 100 nm to 10 nm.
Muresan: Journal of Applied Electrochemistry, 21 (1991), 565-574 [6] Michel Troyon, Lin Wang: Applied Surface Science, 103 (1996), 517-523 [7] S.H.
Li, et al: Materials Science Forum Vols. 437-438 (2003), 49-52 [8] R.
Online since: July 2021
Authors: Yaqoob M. Jawad, Mahasin F. Hadi Al-Kadhemy, Jehan Abdul Sattar Salman
Introduction
The polymeric materials have enticed the technological and scientific researchers, because of their broad applications.
Mohammadi, "Evaluation of physicochemical, mechanical and biological properties of chitosan/carboxymethyl cellulose reinforced with multiphasic calcium phosphate whisker-like fibers for bone tissue engineering," Materials Science and Engineering :C, vol. 100, pp. 341-353, 2019
Jayasuriya, "Fabrication and characterization of carboxymethyl cellulose novel microparticles for bone tissue engineering," Materials Science and Engineering :C, vol. 69, pp. 733-743, 2016
Isa, "Characterization of carboxy methylcellulose doped with DTAB as new types of biopolymer electrolytes," Bulletin of Materials Science, vol. 35, no. 7, pp. 1123-1131, 2012
Li, "Transparent high refractive index nanocomposite thin films," Materials Letters, vol. 61, no. 14-15, pp. 2908-2910, 2007
Mohammadi, "Evaluation of physicochemical, mechanical and biological properties of chitosan/carboxymethyl cellulose reinforced with multiphasic calcium phosphate whisker-like fibers for bone tissue engineering," Materials Science and Engineering :C, vol. 100, pp. 341-353, 2019
Jayasuriya, "Fabrication and characterization of carboxymethyl cellulose novel microparticles for bone tissue engineering," Materials Science and Engineering :C, vol. 69, pp. 733-743, 2016
Isa, "Characterization of carboxy methylcellulose doped with DTAB as new types of biopolymer electrolytes," Bulletin of Materials Science, vol. 35, no. 7, pp. 1123-1131, 2012
Li, "Transparent high refractive index nanocomposite thin films," Materials Letters, vol. 61, no. 14-15, pp. 2908-2910, 2007
Online since: August 2014
Authors: Zhi Qiang Xu
The optical properties of the film differs from its respective bulk materials.
Journal of Semiconductors, 2005,26 (2): 335-340
Several Infrared Optical Characteristics of Thin Film Materials [J].
Hefei: China University of Science and Technology Press 2001
Beijing: Science Press, 2007
Journal of Semiconductors, 2005,26 (2): 335-340
Several Infrared Optical Characteristics of Thin Film Materials [J].
Hefei: China University of Science and Technology Press 2001
Beijing: Science Press, 2007
Online since: September 2018
Authors: Abd Elouahab Noua, Fares Serradj, Toufik Ziar, Hichem Farh, Hanna Belghit
The Cold Rolling Effects on the Microstructure and Micro-Hardness of Al-Mg-Si Alloy
Hichem FARH1,2*, Hanna BELGHIT1, Toufik ZIAR1,2, Abdelouahab NOUA2 and Fares Serradj3
1Department of Material Sciences, Faculty of Exact Sciences, University of Tebessa 12002, Algeria
2Laboratoire des Composants actif et Matériaux, Oum el Bouaghi, Algeria
3Department of Material Sciences, Faculty of Exact Sciences, University of Guelma, Algeria
KEYWORDS: AL-MG-SI ALLOYS, DEFORMATION RATIO, ARTIFICIAL AGEING, PRECIPITATION
ABSTRACT.
Du: Journal of Alloys and Compounds, 745 (2018), p. 644
Australasia, Materials Forum, 28 (2004), p. 494
Australasia, Materials Forum, 28 (2004).
Wang, Materials Science and Engineering: A, 710 (2018), p. 27
Du: Journal of Alloys and Compounds, 745 (2018), p. 644
Australasia, Materials Forum, 28 (2004), p. 494
Australasia, Materials Forum, 28 (2004).
Wang, Materials Science and Engineering: A, 710 (2018), p. 27
Online since: January 2012
Authors: Jin Sheng Liang, Qing Guo Tang, Fei Wang, Cong Chen, Ya Lei Chen
Zeta Potential of Sepiolite in Aqueous System
Cong Chen1, a, Fei Wang1, b, Jinsheng Liang1, c, Qingguo Tang1 and Yalei Chen1
1Institute of Power Source & Ecomaterials Science, Hebei University of Technology,
Tianjin 300130, China
adina0055@163.com, bwangfei36777@163.com, cliang_jinsheng@sina.com
Keywords: sepiolite, zeta potential, aqueous system, mineral materials
Abstract.
Introduction Sepiolite as a kind of useful industrial mineral materials is widely used in many industrial preparations such as drilling fluids, sorbent, coating and paper [1-3].
Experimental 2.1 Materials The raw sepiolites were received from Henan province of China, whose chemical composition in mass ratio was shown in Table 1.
Turutoglu: Journal of Petroleum Sci. and Engineering.
Vol. 18(2006), p. 1620-1610 [9] Nalan Tekin, Aziz Dinçer and Özkan Demirbaş, et al.: Journal of Hazardous Materials.
Introduction Sepiolite as a kind of useful industrial mineral materials is widely used in many industrial preparations such as drilling fluids, sorbent, coating and paper [1-3].
Experimental 2.1 Materials The raw sepiolites were received from Henan province of China, whose chemical composition in mass ratio was shown in Table 1.
Turutoglu: Journal of Petroleum Sci. and Engineering.
Vol. 18(2006), p. 1620-1610 [9] Nalan Tekin, Aziz Dinçer and Özkan Demirbaş, et al.: Journal of Hazardous Materials.