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Online since: May 2016
Authors: Anatoly S. Vereshchaka, Oleg Sharipov, Jury Bublikov, Nikolay Sitnikov, Alexey Anatolevich Vereschaka
The main tool materials for cutting of hard-to-cut materials are carbides.
Advanced Materials Research Vol. 712-715 (2013), 347-351
Journal of Friction and Wear, Vol. 34, No. 3, (2013), 208–213 [5] A.M.
Materials Science and Engineering A342 (2003) 58-/79 [8] A.N.
Key Engineering Materials, Vol. 581 (2014), 62-67 [11] A.
Advanced Materials Research Vol. 712-715 (2013), 347-351
Journal of Friction and Wear, Vol. 34, No. 3, (2013), 208–213 [5] A.M.
Materials Science and Engineering A342 (2003) 58-/79 [8] A.N.
Key Engineering Materials, Vol. 581 (2014), 62-67 [11] A.
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: February 2021
Authors: La Jun Feng, Guang Zhao Li, Zhe Zhai, Fang Fang Wang
Effect of Different Carbon Materials on the
Conductivity of Epoxy Resin Conductive Coatings
Guangzhao Li1,2 a, Lajun Feng1,b *, Zhe Zhai1,c, Fangfang Wang1,d
1School of Materials Science and Engineering, Xi’an University of Technology, China
2School of Materials Engineering, Shaanxi Polytechnic Institute, China
a2931348@qq.com, bfenglajun@xaut.edu.cn, czhaizhe1113@126.com, dwff1170111008@163.com
Keywords: Conductive coating, Graphene, MWCNTs, Electrostatic spraying
Abstract.
Materials and Methods Materials In this work, the epoxy resin powder for electrostatic sprayed was produced by Yangzhou Bingshun Powder coating Engineering Co., Ltd.
Advanced Materials, 20 (2010) 3337-3341
Journal of Materials Science, 32 (1997) 5717-5724
Advanced Materials Research, 622-623 (2012) 781-786
Materials and Methods Materials In this work, the epoxy resin powder for electrostatic sprayed was produced by Yangzhou Bingshun Powder coating Engineering Co., Ltd.
Advanced Materials, 20 (2010) 3337-3341
Journal of Materials Science, 32 (1997) 5717-5724
Advanced Materials Research, 622-623 (2012) 781-786
Online since: October 2013
Authors: Yang Wang, Teng Fei Gao, Xue Feng Wu
LAML is also a potential machining method with the ability of machining difficult-to-machine materials.
The crack size, loading stress and fracture toughness are three key factors influencing the edge damage for brittle materials at room temperature.
Modelling and Simulation in Materials Science and Engineering,Vol. 17(2009), p.043001 [8] Cao Y.
Machining Science and Technology.
Journal of Materials Science, Vol. 30(1995) , p. 395
The crack size, loading stress and fracture toughness are three key factors influencing the edge damage for brittle materials at room temperature.
Modelling and Simulation in Materials Science and Engineering,Vol. 17(2009), p.043001 [8] Cao Y.
Machining Science and Technology.
Journal of Materials Science, Vol. 30(1995) , p. 395
Online since: January 2008
The Journal of Nano Research (JNanoR) is a new venue for publishing
original work in this ever evolving field.
Kroto serves as Honorary President of SNN and Honorary Editor-in-Chief for the Journal.
The contributions range from synthesis and characterization of nanoparticles and nanostructures to computer science issues in bio nanotechnology being a clear testament of the breadth and interdisciplinary nature of the journal.
We would like to encourage you to submit some of your high quality work to this journal in the near future.
Meletis Editor-in-Chief University of Texas at Arlington Materials Science and Engineering Department Arlington, TX 76019 USA Prof.
Kroto serves as Honorary President of SNN and Honorary Editor-in-Chief for the Journal.
The contributions range from synthesis and characterization of nanoparticles and nanostructures to computer science issues in bio nanotechnology being a clear testament of the breadth and interdisciplinary nature of the journal.
We would like to encourage you to submit some of your high quality work to this journal in the near future.
Meletis Editor-in-Chief University of Texas at Arlington Materials Science and Engineering Department Arlington, TX 76019 USA Prof.
Online since: June 2008
Authors: Masao Toyoda, Masahito Mochizuki, Gyu Baek An, Shigetaka Okano
Hattori: Transactions of the ASME, Journal of Engineering
Materials and Technology, Vol. 122, p. 98-103 (2000)
Mochizuki: Science and Technology in Advanced Materials, Vol. 5, p. 255- 266 (2004)
Mikami: Materials Science Forum, Vol. 512, p. 19-24 (2006)
Toyoda: Materials Science Forum, Vol. 512, p. 379-382 (2006)
Nakakado: Transactions of the ASME, Journal of Engineering Materials and Technology, Vol. 122, p. 108-112 (2000)
Mochizuki: Science and Technology in Advanced Materials, Vol. 5, p. 255- 266 (2004)
Mikami: Materials Science Forum, Vol. 512, p. 19-24 (2006)
Toyoda: Materials Science Forum, Vol. 512, p. 379-382 (2006)
Nakakado: Transactions of the ASME, Journal of Engineering Materials and Technology, Vol. 122, p. 108-112 (2000)
Online since: March 2013
Authors: N. Papadopoulos, P. Švec, Ioannis Kartswnakis, P. Tserotas
These materials are candidates for sensor applications [10-15].
Nedkov, 2010, Raman spectroscopy investigation of magnetite nanoparticles in ferrofluids, Journal of Magnetism and Magnetic Materials (322) Elsevier
Sirivat, 2012, Synthesis and characterization of magnetite nanoparticles via the chemical co-precipitation method, Materials Science and Engineering B 177, 421– 427
Xi, 2004, Synthesis of magnetite nanoparticles in W/O micro-emulsion, Journal of Materials Science 39, 2633 – 2636
Hristoforou, New monolithic three dimensional field sensors with high sensitivity, Journal of Optoelectronics and Advanced Materials, pp 1691-1697, 2006.
Nedkov, 2010, Raman spectroscopy investigation of magnetite nanoparticles in ferrofluids, Journal of Magnetism and Magnetic Materials (322) Elsevier
Sirivat, 2012, Synthesis and characterization of magnetite nanoparticles via the chemical co-precipitation method, Materials Science and Engineering B 177, 421– 427
Xi, 2004, Synthesis of magnetite nanoparticles in W/O micro-emulsion, Journal of Materials Science 39, 2633 – 2636
Hristoforou, New monolithic three dimensional field sensors with high sensitivity, Journal of Optoelectronics and Advanced Materials, pp 1691-1697, 2006.
Online since: July 2007
Authors: Marwan K. Khraisheh, Mohammad Nazzal
It is established that some superplastic materials undergo significant cavitation during
deformation.
Roberts: Materials Science and Technology Vol. 8 (1992), p. 611
Wang: Journal of Materials Science Vol. 30 (1995), p. 2549
Journal of Solids Structures Vol. 26 (1990), p. 149
Darras: Journal of Materials Engineering and Performance Vol.13 (2004), p. 691
Roberts: Materials Science and Technology Vol. 8 (1992), p. 611
Wang: Journal of Materials Science Vol. 30 (1995), p. 2549
Journal of Solids Structures Vol. 26 (1990), p. 149
Darras: Journal of Materials Engineering and Performance Vol.13 (2004), p. 691
Online since: September 2011
Authors: Jin Jun Yuan, Quan Yi Huang, Hong Yong Yuan
Emergency response and safeguard resources mainly include emergency institution, emergency human resources, emergency materials and equipment, emergency telecommunications, emergency health service, emergency shelters and emergency financial support, etc.
Lu: Journal of Xinyang Teachers College (Natural Science Edition), 2 Vol. 14 (2001) No. 3, p. 314-318
Zhang: Journal of Geospatial Information, Vol. 5 (2007) No. 1, p. 105-106
Chen: Journal of Modern Business, Vol. 20 (2008) , p. 141
Chen: Journal o f Geomatics World, (2006) No. 4, p. 53-58
Lu: Journal of Xinyang Teachers College (Natural Science Edition), 2 Vol. 14 (2001) No. 3, p. 314-318
Zhang: Journal of Geospatial Information, Vol. 5 (2007) No. 1, p. 105-106
Chen: Journal of Modern Business, Vol. 20 (2008) , p. 141
Chen: Journal o f Geomatics World, (2006) No. 4, p. 53-58
Online since: September 2013
Authors: Qi Chang Dai, Miao Yu, Yu Bin Ji, Cui Ting Chen
Journal of Chinese Institute of Food Science and Technology, Vol. 9(3) (2009), P. 53-60.
Journal of Chinese Medicinal Materials, Vol. 36(1) (2013), P. 137-140.
Journal of Zhejiang University of Science and Technology, Vol. 25(1) (2013), P. 27-32
Journal of Northeast Normal University (Natural Science Edition), Vol. 41(2) (2009), P. 154-159.
Journal of Natural Science of Heilongjiang University, Vol. 30(2) (2013), P. 220-224.
Journal of Chinese Medicinal Materials, Vol. 36(1) (2013), P. 137-140.
Journal of Zhejiang University of Science and Technology, Vol. 25(1) (2013), P. 27-32
Journal of Northeast Normal University (Natural Science Edition), Vol. 41(2) (2009), P. 154-159.
Journal of Natural Science of Heilongjiang University, Vol. 30(2) (2013), P. 220-224.