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Online since: February 2022
Authors: Viktor M. Timokhin
However, these materials are fundamentally different from layered materials, such as mica, containing hydrogen bonds.
However, this model is not suitable for crystalline materials.
Materials and Methods of Research The following materials were studied: mica phlogopite KMg3(Si3AlO10)(F,OH)2 and muscovite KAl2(AlSi3O10)(OH)2, which are the basis for the manufacture of electrical insulating materials such as collector and gasket micanites, micafolium, glassmicanite, mica tape, mica plastics and other materials.
[5] Hiroshi Murata, Seung Chul Choi, Kunihito Koumoto and Hiroaki Yanagida High-temperature electrical breakdown in single crystal and polycrystalline MgO Journal of Materials Science 20 (1985) 4507–4513
Journal of Nano-and Electronic Physics 6 (3) (2014) 03048
However, this model is not suitable for crystalline materials.
Materials and Methods of Research The following materials were studied: mica phlogopite KMg3(Si3AlO10)(F,OH)2 and muscovite KAl2(AlSi3O10)(OH)2, which are the basis for the manufacture of electrical insulating materials such as collector and gasket micanites, micafolium, glassmicanite, mica tape, mica plastics and other materials.
[5] Hiroshi Murata, Seung Chul Choi, Kunihito Koumoto and Hiroaki Yanagida High-temperature electrical breakdown in single crystal and polycrystalline MgO Journal of Materials Science 20 (1985) 4507–4513
Journal of Nano-and Electronic Physics 6 (3) (2014) 03048
Online since: November 2013
Authors: Bao Qi Zuo, Hao Dou
Experimental Part
Materials.
Shao, Electrospinning of reconstituted silk fiber from aqueous silk fibroin solution, Materials Science and Engineering C, 29 (2009) 2270–2274 [4] H.
Hu, Electrospun ultra-fine silk fibroin fibers from aqueous solutions, Journal of Material Science, 40(2005) 5359–5363 [5] J.X.
Mohammad, Effects of Some Electrospinn ing Parameters on Morphology of Natural Silk-Based Nanofibers, Journal of Applied Polymer Science, 113 (2009) 226–234 [8]N.
Darrell, Flat Polymer Ribbons and Other Shapes by Electrospinning, Journal of Polymer Science: Part B: Polymer Physics, 39 (2001) 2598 –2606 [10] T.
Shao, Electrospinning of reconstituted silk fiber from aqueous silk fibroin solution, Materials Science and Engineering C, 29 (2009) 2270–2274 [4] H.
Hu, Electrospun ultra-fine silk fibroin fibers from aqueous solutions, Journal of Material Science, 40(2005) 5359–5363 [5] J.X.
Mohammad, Effects of Some Electrospinn ing Parameters on Morphology of Natural Silk-Based Nanofibers, Journal of Applied Polymer Science, 113 (2009) 226–234 [8]N.
Darrell, Flat Polymer Ribbons and Other Shapes by Electrospinning, Journal of Polymer Science: Part B: Polymer Physics, 39 (2001) 2598 –2606 [10] T.
Online since: October 2010
Authors: Li Xiao, Han Chen, Guan Zhou Qiu, Le Xian Xia
Kim: Journal of magnetism and magnetic materials. 265 (2003) 357
Liao: Journal of Magnetism and Magnetic Materials. 247 (2002) 70.
Jung: Journal of Magnetism and Magnetic Materials. 242 (2002) 197
Uma: Materials Letters. 45(2000) 191
Kaczmar: Journal of Magnetism and Magnetic Materials. 43 (1996) 157
Liao: Journal of Magnetism and Magnetic Materials. 247 (2002) 70.
Jung: Journal of Magnetism and Magnetic Materials. 242 (2002) 197
Uma: Materials Letters. 45(2000) 191
Kaczmar: Journal of Magnetism and Magnetic Materials. 43 (1996) 157
Online since: November 2012
Authors: Tibor Czigány, Sándor Kling
Experimental
Materials and methods.
White, Self-healing structural composite materials, Composites Part A: Applied Science and Manufacturing. 34 (2003) 743-753
Bond, Biomimetic reliability strategies for self-healing vascular networks in engeneering materials, Journal of the Royal Society Interface. 5 (2008) 735-747
White, Self-healing of internal damage in synthetic vascular materials, Advanced Materials. 22 (2010) 5159-5163
White, Self-healing materials with microvascular networks, Nature Materials. 6 (2007) 581-585
White, Self-healing structural composite materials, Composites Part A: Applied Science and Manufacturing. 34 (2003) 743-753
Bond, Biomimetic reliability strategies for self-healing vascular networks in engeneering materials, Journal of the Royal Society Interface. 5 (2008) 735-747
White, Self-healing of internal damage in synthetic vascular materials, Advanced Materials. 22 (2010) 5159-5163
White, Self-healing materials with microvascular networks, Nature Materials. 6 (2007) 581-585
Online since: May 2013
Authors: Paul J.R. Ding J.R., M.S.M. Shawal, H. Husain, M.S. Meon, J.B. Saedon
Wire electrical discharge machining (WEDM) is a material removal process of electrically conductive materials by the thermo-electric source of energy .This kind of machining extensively used in machining of materials with highly precision productivity.
In order to optimize machining conditions for materials with different thermal properties or advanced materials, experimental investigations are still essential.
Applied Surface Science Vol. 253 (2007), p. 9007–9016
Journal of Material Processing Technology, Vol. 169 (2005), p. 328-336
International Journal of Engineering, Science and Technology Vol. 2 (2010), p. 162-183
In order to optimize machining conditions for materials with different thermal properties or advanced materials, experimental investigations are still essential.
Applied Surface Science Vol. 253 (2007), p. 9007–9016
Journal of Material Processing Technology, Vol. 169 (2005), p. 328-336
International Journal of Engineering, Science and Technology Vol. 2 (2010), p. 162-183
Online since: February 2012
Authors: Bin Zhao, Di Ma
The Morphology Control of Nano-Cu2O and Study on Its Phototocatalytic Properties in the Treatment of Chromium-Containing Wastewater
Bin Zhao1,2,3,a, Di Ma1,2,b
1 Sichuan University of science and engineering, Sichuan zigong, China
2 Key Laboratory of Green Catalysis of Sichuan Institute of High Education, Sichuan zigong, China
3 Institute of Functionalized Materials, Sichuan University of Science & Engineering,
Sichuan zigong, China
azler_sc@21cn.com, bchemadi@sina.com
Keywords: Cu2O,Photocatalyst, Nanometer material, Wastewater treatment
Abstract.
Li: Enterprise Science And Technology & Development, Vol. 293 (2010) No.23, p 34-35.
Li: Journal of Chemical Engineering of Chinese Universities, Vol. 21(2007) No.1,p 88-92.
Navio: Journal of Photochemistry and Photobiology A, Chemistry 2001, 138(1), p 79-85
Zhou, Development and Application of Materials, Vol. 25 (2010) No3, p 17-21.
Li: Enterprise Science And Technology & Development, Vol. 293 (2010) No.23, p 34-35.
Li: Journal of Chemical Engineering of Chinese Universities, Vol. 21(2007) No.1,p 88-92.
Navio: Journal of Photochemistry and Photobiology A, Chemistry 2001, 138(1), p 79-85
Zhou, Development and Application of Materials, Vol. 25 (2010) No3, p 17-21.
Online since: November 2013
Authors: Huan Yang Zhou, Qi Xia
The finite element simulation of surface wrinkling of rigid films
on a compliant thin-substrate
Huanyang Zhou1, a and Qi Xia1, b
1 Department of Mechanical Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, China
az_h_y89@163.com, bqxia@mail.hust.edu.cn
Keywords: rigid film; compliant thin-substrate; wrinkle; finite element method.
Most compliant materials are incompressible, and their Poisson's ratios are close to 0.5.
[3] Chen X, Hutchinson JW: Journal of Applied Mechanics Vol.71 (2004), p.597
[6] Huang ZY, Hong W, Suo Z: Journal of Mechanics and Physics of Solids Vol.53 (2005), p.2101
[8] Huang R: Journal of Mechanics and Physics of Solids Vol.53 (2005), p.63.
Most compliant materials are incompressible, and their Poisson's ratios are close to 0.5.
[3] Chen X, Hutchinson JW: Journal of Applied Mechanics Vol.71 (2004), p.597
[6] Huang ZY, Hong W, Suo Z: Journal of Mechanics and Physics of Solids Vol.53 (2005), p.2101
[8] Huang R: Journal of Mechanics and Physics of Solids Vol.53 (2005), p.63.
Online since: April 2012
Authors: Jin Shan Li, Hong Chao Kou, Bin Tang, Hui Chang, Feng Bo Han, Min Jie Lai
Prasad: Materials Science and Engineering A Vol. 336 (2002), p. 150-158
Semiatin: Materials Science and Engineering A Vol. 243 (1998), p. 46-65
Zinkle: Journal of Nuclear Materials Vol. 283 (2000), p. 349-352
Bocher: Materials Science and Engineering A Vol. 447 (2007), p. 99-110
Mecking: Progress in Materials Science Vol. 48 (2003), p. 171-273
Semiatin: Materials Science and Engineering A Vol. 243 (1998), p. 46-65
Zinkle: Journal of Nuclear Materials Vol. 283 (2000), p. 349-352
Bocher: Materials Science and Engineering A Vol. 447 (2007), p. 99-110
Mecking: Progress in Materials Science Vol. 48 (2003), p. 171-273
Online since: March 2006
Authors: Young Nam Kim, Cheon Seok Cha, Jin Oh Chung, In Young Yang, Kil Sung Lee
Jones: International Journal of Mechanical Science(1999a), Vol. 41, pp.
179-208
Adachi: Key Engineering Materials(2003), Vols. 233-236 pp. 239-244
Yasuhiko: Journal of Materials Processing Technology(2003), Vol. 140, pp. 59-64
Singace: International Journal of Mechanical Science(1999), Vol. 41, pp. 865-890
Yang: Key Engineering Materials(2003), Vols. 233-236, pp. 245-250.
Adachi: Key Engineering Materials(2003), Vols. 233-236 pp. 239-244
Yasuhiko: Journal of Materials Processing Technology(2003), Vol. 140, pp. 59-64
Singace: International Journal of Mechanical Science(1999), Vol. 41, pp. 865-890
Yang: Key Engineering Materials(2003), Vols. 233-236, pp. 245-250.
Online since: October 2010
Authors: Yücel Onüralp, Filiz Çinar Şahin, G. Göller, Nilgun Kuskonmaz, Zeynep Taslicukur
Omori:Materials Science and Engineering A287(2008),183-188
Zhang:Materials Science Poland, 25-3(2007),699-704
Weber :Materials Science Forum 473-474(2005),435-440
Kondo, Y.Suzuki, J.F.Yang, G.J.Zhang, T.Ohji:Journal of Materials Science Letters 20(2001),461-463
Nygren:Journal of Materials Chemistry 11(2000),204-207
Zhang:Materials Science Poland, 25-3(2007),699-704
Weber :Materials Science Forum 473-474(2005),435-440
Kondo, Y.Suzuki, J.F.Yang, G.J.Zhang, T.Ohji:Journal of Materials Science Letters 20(2001),461-463
Nygren:Journal of Materials Chemistry 11(2000),204-207