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Online since: May 2005
Authors: Yen Zen Wang, Joon Suk Song, Myung Hwan Oh, Soo Hyung Seo
Timmerman,
Materials Science Forum Vols.389-393 (2002), p. 71
[5] D.
Janzen : Materials Science and Engineering, Vol.
Winnacker, Materials Science Forum, Vols.353-356 (2001), p. 25 [9] M.
Grange : Materials Science and Engineering, Vols.
Siche : Materials Science Forum, Vols.389-393 (2002), p. 63
Janzen : Materials Science and Engineering, Vol.
Winnacker, Materials Science Forum, Vols.353-356 (2001), p. 25 [9] M.
Grange : Materials Science and Engineering, Vols.
Siche : Materials Science Forum, Vols.389-393 (2002), p. 63
Online since: April 2020
Authors: Akkawat Ruammaitree, Piyaporn Surinlert
High surface hardness materials can be applied as bearings or shafts, turbine applications, cam or ring gears, automotive component and so on [1].
The surface hardness was measured using a Micro Materials nanoindentation tester under load control to 1 mN.
Series: Materials Science and Engineering, 526 (2019) 012008
Smovzh, CVD Graphene Transfer from Copper Substrate to Polymer, Materials Today: Proceedings 4 (2017) 11476–11479
Arif, Modified and improved Hummer's synthesis of graphene oxide for capacitors applications, Modern Electronic Materials 3 (2017) 110–116
The surface hardness was measured using a Micro Materials nanoindentation tester under load control to 1 mN.
Series: Materials Science and Engineering, 526 (2019) 012008
Smovzh, CVD Graphene Transfer from Copper Substrate to Polymer, Materials Today: Proceedings 4 (2017) 11476–11479
Arif, Modified and improved Hummer's synthesis of graphene oxide for capacitors applications, Modern Electronic Materials 3 (2017) 110–116
Online since: April 2008
Authors: Li Cheng Yang, Jin Xiang Hu, Li Wei Ning, Ying Chun Liu
The change of the
characteristics of the material also influences the deformation process and temperature distribution.
The material of the billet is the typical low-carbon steel 45# and the rollers are alloy cast iron.
References [1] Xianghuai DONG: Computer Simulation for Material Figuration.
Journal of Materials Science & Technology (2003), P.228 [4] Jianchao LI, Jianzhong CUI and Yonglin MA: Simulation of Rolling Billet in Oval Pass by Explicit Dynamics Elastic-Plastic FEM.
Journal of University of Science and Technology Beijing (2004), P.173
The material of the billet is the typical low-carbon steel 45# and the rollers are alloy cast iron.
References [1] Xianghuai DONG: Computer Simulation for Material Figuration.
Journal of Materials Science & Technology (2003), P.228 [4] Jianchao LI, Jianzhong CUI and Yonglin MA: Simulation of Rolling Billet in Oval Pass by Explicit Dynamics Elastic-Plastic FEM.
Journal of University of Science and Technology Beijing (2004), P.173
Online since: May 2014
Authors: Ramli Mat, Wan Rosli Wan Sulaiman, Anwar Johari, Siti Hamidah Mohd Setapar, Asmadi Ali, Tuan Amran Tuan Abdullah, Mohd Johari Kamaruddin
Experimental
Materials: The ε-cap (99 %) was purchased from Acros.
Muhammad Abbas, et al., Dielectric Properties for the Ring Opening Polymerisation of ε-Caprolactone submitted to Applied Mechanics and Materials Journal, Trans Tech Publications (2013)
[3] Agilent, Application Note: Basics of Measuring the Dielectric Properties of Materials, 2006
Hippel, Dielectric Materials and Applications, the M.I.T.
Edgar, et al., Microwave processing of materials, National Academic of Sciences, Washington, D.C., 1994, pp. 5-59.
Muhammad Abbas, et al., Dielectric Properties for the Ring Opening Polymerisation of ε-Caprolactone submitted to Applied Mechanics and Materials Journal, Trans Tech Publications (2013)
[3] Agilent, Application Note: Basics of Measuring the Dielectric Properties of Materials, 2006
Hippel, Dielectric Materials and Applications, the M.I.T.
Edgar, et al., Microwave processing of materials, National Academic of Sciences, Washington, D.C., 1994, pp. 5-59.
Online since: April 2013
Authors: Nur Azhani Abd Razak, Wai Loon Ng, A. Juliawati
Materials and Methods
In this study, material used was AISI 1010 carbon steel with chemical composition given in Table 1.
Javad, Foundation of Materials Science and Engineering, fourth edition.
Parmar, Effects of MIG process parameters on the geometry of the bead in the automatic surfacing of stainless steel, Journal of Materials Processing Technology. 41(1994) 381-398
Kumaresh, Influence of heat input on high temperature weldment corrosion in submerged arc welded power plant carbon steel, Materials and Design. 29 (2007) 1036-1042
Al-Moubaraki, Corrosion behaviour of mild steel in hydrochloric acid solutions, International Journal Electrochemical Science. 3 (2008) 806-818.
Javad, Foundation of Materials Science and Engineering, fourth edition.
Parmar, Effects of MIG process parameters on the geometry of the bead in the automatic surfacing of stainless steel, Journal of Materials Processing Technology. 41(1994) 381-398
Kumaresh, Influence of heat input on high temperature weldment corrosion in submerged arc welded power plant carbon steel, Materials and Design. 29 (2007) 1036-1042
Al-Moubaraki, Corrosion behaviour of mild steel in hydrochloric acid solutions, International Journal Electrochemical Science. 3 (2008) 806-818.
Online since: January 2020
Authors: Gulnara I. Amerkhanova, Lyubov A. Zenitova, Aleksey I. Khatsrinov
Kashutin, Amorphous hydrothermal nanosilica: production technology, physical and chemical characteristics, experience and possibilities of innovative application for inorganic materials science
Bazhenov, Resource- and energy-saving technologies of building materials.
New research areas in building materials science, Part 1.
Volokitin et al., Methods and technology of production of heat insulating materials from mineral raw materials.
Volokitin et al., Methods and technology of production of heat insulating materials from mineral raw materials.
Bazhenov, Resource- and energy-saving technologies of building materials.
New research areas in building materials science, Part 1.
Volokitin et al., Methods and technology of production of heat insulating materials from mineral raw materials.
Volokitin et al., Methods and technology of production of heat insulating materials from mineral raw materials.
Online since: March 2013
Authors: Ping Chen, Lian Bao Kan
Thring: Journal of Hazardous Materials Vol.203–204 (2012), p.195–203
[4] Bao-chen Cui, Shu-zhi Liu, Fu-yi Cui: Process Safety and Environmental Protection Vol.89 (2011) , p.198–203
[5] Baochen Cui, Fuyi Cui, Guolin Jing: Journal of Hazardous Materials Vol.165 (2009), p.511–517
[6] D.
Stefanescu: Journal of Petroleum Science and Engineering Vol. 22 (1999) , p.151–160 [11] C.
Nammari: Journal of Hazardous Materials Vol.148(2007) , p.616– 622 [16] Nurdan Buyukkamaci, Emrah Kucukselek: Journal of Hazardous Materials Vol.144 (2007) , p.323–327 [17] Lin Yang, George Nakhla, Amarjeet Bassi: Journal of Hazardous Materials Vol.125 (2005) , p.130–140 [18] S.N.
Gimenez: Journal of Hazardous Materials Vol.167 (2009) , p.879– 884 [21] Essam A.H.
Abouelnasr: Process Safety and Environmental Protection Vol.88(2010) , p.318–326 [22] Lingsheng Zhou, Xiumin Jiang, Jianguo Liu: Journal of Hazardous Materials Vol.170 (2009) , p.175–179
Stefanescu: Journal of Petroleum Science and Engineering Vol. 22 (1999) , p.151–160 [11] C.
Nammari: Journal of Hazardous Materials Vol.148(2007) , p.616– 622 [16] Nurdan Buyukkamaci, Emrah Kucukselek: Journal of Hazardous Materials Vol.144 (2007) , p.323–327 [17] Lin Yang, George Nakhla, Amarjeet Bassi: Journal of Hazardous Materials Vol.125 (2005) , p.130–140 [18] S.N.
Gimenez: Journal of Hazardous Materials Vol.167 (2009) , p.879– 884 [21] Essam A.H.
Abouelnasr: Process Safety and Environmental Protection Vol.88(2010) , p.318–326 [22] Lingsheng Zhou, Xiumin Jiang, Jianguo Liu: Journal of Hazardous Materials Vol.170 (2009) , p.175–179
Online since: September 2005
Authors: Bozidar Cekić, V. Koteski, J. Belošević-Čavor, N. Novaković
Koteski
The Vinča Institute of Nuclear Sciences, P.
Clark, "Ferromagnetic materials", Vol.
Nishizawa, "Binary alloy phase diagrams", 2 nd ed., p. 1194 Materials Park, Ohio: ASM, (1990)
Pop, Journal of Magnetism and Magnetic Materials 123 (1993), p. 159. [12] P.
Moriya, Journal of Magnetism and Magnetic Materials 14 (1979), p. 1
Clark, "Ferromagnetic materials", Vol.
Nishizawa, "Binary alloy phase diagrams", 2 nd ed., p. 1194 Materials Park, Ohio: ASM, (1990)
Pop, Journal of Magnetism and Magnetic Materials 123 (1993), p. 159. [12] P.
Moriya, Journal of Magnetism and Magnetic Materials 14 (1979), p. 1
Online since: February 2014
Authors: Zhi Qing Hu, Jiao Jiao Zhen, Zeng Ming Feng, Jun Hui Cao
Journal of Materials Processing Technology 210 (2010) 1436–1454
Applied Mechanics and Materials. 2009.16-19:570~574
Materials science and engineering. 2009.499:234-237
Advanced Materials Research. 2011.189-193: 2399-2403
Journal of Materials Processing Technology. 113 (2001) 40- 45
Applied Mechanics and Materials. 2009.16-19:570~574
Materials science and engineering. 2009.499:234-237
Advanced Materials Research. 2011.189-193: 2399-2403
Journal of Materials Processing Technology. 113 (2001) 40- 45
Online since: December 2012
Authors: Quan Lin Jin
Materials and Design, Vol. 21(2000), p.287-295
[2] B.P.
Journal of Materials processing Technology, Vol. 135(2003), p. 324 [3] Q.
Liao: Numerical Simulation of Superplastic Forming and Its Microstructure Evolution, Materials Science Forum Vols. 447-448 (2004), p.183
Hai: Superplastic Constitutive Relation and Its Applications, In: Superplasticity in Advanced Materials, ICSAM.97, edited by A.H.
Transactions of Materials and Heat Treatment, 2011, Vol. 32(2011), p.51 (in Chinese) [12] Q.
Journal of Materials processing Technology, Vol. 135(2003), p. 324 [3] Q.
Liao: Numerical Simulation of Superplastic Forming and Its Microstructure Evolution, Materials Science Forum Vols. 447-448 (2004), p.183
Hai: Superplastic Constitutive Relation and Its Applications, In: Superplasticity in Advanced Materials, ICSAM.97, edited by A.H.
Transactions of Materials and Heat Treatment, 2011, Vol. 32(2011), p.51 (in Chinese) [12] Q.