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Online since: June 2021
Authors: Dong Won Jung, Muhammad Sajjad, Mohanraj Murugesan
CIRP Journal of Manufacturing Science and Technology, (2017), 16, 43--54
Procedia Materials Science, (2014), 6, 430--435
Journal of Materials Research and Technology, (2018), 8(1), 1461--1469
Materials Today, (2019), 18, 3330--3339
Materials and Design, 195 (2020), 108997.
Procedia Materials Science, (2014), 6, 430--435
Journal of Materials Research and Technology, (2018), 8(1), 1461--1469
Materials Today, (2019), 18, 3330--3339
Materials and Design, 195 (2020), 108997.
Online since: November 2015
Authors: Hussin Kamarudin, N.Z. Noriman, M.H. Fatin, Muhammad Salihin Zakaria, Sam Sung Ting, N.R. Munirah, A.M. Mustafa Al Bakri
Barlow, in: Rubber Componding : Principles, Materials and Techniques.
Madufor: American Journal of Polymer Science, Vol. 2 (2012), p. 28-34
Sam: Applied Mechanics and Materials, Vol. 754-755 (2015), p. 115-119
El-Sebaie: Materials and Design, Vol. 30 (5) (2009), p. 1561-1568
El-Sebaie: Materials and Design, Vol. 30 (2009), p. 1785-1791
Madufor: American Journal of Polymer Science, Vol. 2 (2012), p. 28-34
Sam: Applied Mechanics and Materials, Vol. 754-755 (2015), p. 115-119
El-Sebaie: Materials and Design, Vol. 30 (5) (2009), p. 1561-1568
El-Sebaie: Materials and Design, Vol. 30 (2009), p. 1785-1791
Online since: May 2014
Authors: Jie Zhao, Sen Lin Li
The protecting system includes high-performance zinc alloy sacrificial anodes, high-quality composite corrosion sleeve and filling materials.
In this project, we adopted the way that combined with zinc alloy, three aluminum alloy sacrificial anode materials and anticorrosive coatings.
In Handbook of Environmental Degradation of Materials (Second Edition), Kutz, M., Ed.
Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 1981, 118 (0), 251-258
[9] Information on http://www.sciencedirect.com/science/journal/0010938X/78
In this project, we adopted the way that combined with zinc alloy, three aluminum alloy sacrificial anode materials and anticorrosive coatings.
In Handbook of Environmental Degradation of Materials (Second Edition), Kutz, M., Ed.
Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 1981, 118 (0), 251-258
[9] Information on http://www.sciencedirect.com/science/journal/0010938X/78
Preparation of TiO2-Reduced Graphene Oxide Nanocomposites for Sunlight Degradation of Methylene Blue
Online since: October 2018
Authors: Xi Zhong An, Xiao Hong Yang, Wu Fa Li, Hai Tao Fu
Experimental Section
Materials.
Lu: Journal of Materials Chemistry Vol. 20 (2010), p. 831-843 [8] W.
Novoselov: Nature Materials Vol. 6 (2007), p. 183-191 [15] S.
Jiang: Journal of Colloid and Interface Science Vol. 387 (2012), p. 74-83 [28] M.S.A.S.
Manorama: Chemistry of Materials Vol. 20 (2008), p. 2455-2460 [29] K.
Lu: Journal of Materials Chemistry Vol. 20 (2010), p. 831-843 [8] W.
Novoselov: Nature Materials Vol. 6 (2007), p. 183-191 [15] S.
Jiang: Journal of Colloid and Interface Science Vol. 387 (2012), p. 74-83 [28] M.S.A.S.
Manorama: Chemistry of Materials Vol. 20 (2008), p. 2455-2460 [29] K.
Online since: August 2015
Authors: Mazlee Mohd Noor, Nurul Atikah, Nurul Amira, Mohd Afendi
Grayson, A review of adhesion science, Dental Materials 26 (2010) 11–16
Hashemi, Foundations of Materials Science and Engineering, 4th ed., McGraw’s- Hill Book, 2006, pp. 28-36
Oyetoyan, Annealing Heat Treatment Effects on Steel Welds, Journal of Minerals & Materials Characterization & Engineering, 9 (2010), 547-557
Becky, The Science and Engineering of Materials, 2003
Rajan, Machining of LM13 and LM28 cast aluminum alloy: Part 1, Journal of Materials Processing Technology, 196, (2008), 197-204
Hashemi, Foundations of Materials Science and Engineering, 4th ed., McGraw’s- Hill Book, 2006, pp. 28-36
Oyetoyan, Annealing Heat Treatment Effects on Steel Welds, Journal of Minerals & Materials Characterization & Engineering, 9 (2010), 547-557
Becky, The Science and Engineering of Materials, 2003
Rajan, Machining of LM13 and LM28 cast aluminum alloy: Part 1, Journal of Materials Processing Technology, 196, (2008), 197-204
Online since: September 2007
Authors: Keijiro Nakasa, Masahiko Kato, Bo Zhang, Noriyuki Akitake
Nishida:
Journal of the Society of Materials Science Japan Vol.51 (2002), p.101
[2] K.
Nishida: Journal of the Society of Materials Science Japan Vol. 52 (2003), p.1450 [3] K.
Tasaka: Journal of the Society of Materials Science Japan Vol.47 (1998), p.413 [4] D.
Nakasa: Journal of the Society of Materials Science Japan Vol. 49 (2000), p.572 [5] L.
Nishida: Journal of the Society of Materials Science Japan Vol.51 (2002), p.95 Fig. 5 Effect of holding time at 1273K on load at delamination(a), delamination area(b), and delamination energy(c) measured at 293K and 1273K.
Nishida: Journal of the Society of Materials Science Japan Vol. 52 (2003), p.1450 [3] K.
Tasaka: Journal of the Society of Materials Science Japan Vol.47 (1998), p.413 [4] D.
Nakasa: Journal of the Society of Materials Science Japan Vol. 49 (2000), p.572 [5] L.
Nishida: Journal of the Society of Materials Science Japan Vol.51 (2002), p.95 Fig. 5 Effect of holding time at 1273K on load at delamination(a), delamination area(b), and delamination energy(c) measured at 293K and 1273K.
Online since: August 2021
Authors: Alexey N. Shulgin, Olesya A. Chuprina, Vasiliy V. Pykhov
Walton, Machining of composite materials.
Jalutharia, Prediction of thrust force and torque when drilling composite materials, International Journal of Materials and Product Technology. 32 (2/3) (2008) 213-225
Hoheng, Evaluation of thrust force and surface roughness in drilling composite material using Taguchi analysis and neural network, Journal of Materials Processing Technology. 203 (2008) 342-348
Durao, Comparative analysis of drills for composite laminates, Journal of Composite Materials. 46 (2011) 1649-1659
Shunmugam, Analyses of forces and hole quality in micro-drilling of carbon fabric laminate composites, Journal of Composite Materials. 47 (2013) 1129-1140
Jalutharia, Prediction of thrust force and torque when drilling composite materials, International Journal of Materials and Product Technology. 32 (2/3) (2008) 213-225
Hoheng, Evaluation of thrust force and surface roughness in drilling composite material using Taguchi analysis and neural network, Journal of Materials Processing Technology. 203 (2008) 342-348
Durao, Comparative analysis of drills for composite laminates, Journal of Composite Materials. 46 (2011) 1649-1659
Shunmugam, Analyses of forces and hole quality in micro-drilling of carbon fabric laminate composites, Journal of Composite Materials. 47 (2013) 1129-1140
Online since: October 2013
Authors: Ling Fu, Hui Li Ren, Yi Zhong, Hao Zhou, Chuang Hua Deng
Key Engineering Materials 177-180, 497-502
Journal of Materials Processing Technology 210 (2010) 272-278 [12] B.
International Journal of Mechanical Sciences 52(2010)531-540
Computational Materials Science 48(2010)195-205 [15] H.
Journal of Manufacturing Science and Engineering 129(2007)342-351
Journal of Materials Processing Technology 210 (2010) 272-278 [12] B.
International Journal of Mechanical Sciences 52(2010)531-540
Computational Materials Science 48(2010)195-205 [15] H.
Journal of Manufacturing Science and Engineering 129(2007)342-351
Online since: August 2012
Authors: Hélio Lucena Lira, Rosa do Carmo de Oliveira Lima, Iliana Oliveira Guimarães, Suellen Lisboa Dias, Sidinei Kleber da Silva
Several materials have been used in the preparation of these membranes, among which stand out alumina, silica, zirconia and titania [3].
Materials and methods The material used in this study is an alumina dust from the electrostatic precipitator that is a residue generated during the alumina calcination process.
Boddeker: Journal of Membrane Science Vol. 100 (1995), p. 65
Garcia: Journal of Hazardous Materials Vol. 178 (2010), p. 758
Verdeja: 1st Spanish National Conference on Advances in Materials Recycling and Eco-Energy.
Materials and methods The material used in this study is an alumina dust from the electrostatic precipitator that is a residue generated during the alumina calcination process.
Boddeker: Journal of Membrane Science Vol. 100 (1995), p. 65
Garcia: Journal of Hazardous Materials Vol. 178 (2010), p. 758
Verdeja: 1st Spanish National Conference on Advances in Materials Recycling and Eco-Energy.
Online since: September 2007
Authors: Shu Jie Li, Xiao Kun Yuan, Lian Sheng Yan, Yang Wu Mao, Ting Zhang
If the joining temperature is too low, the reaction of joining material and the interfacial
reaction between the joining material and the welding base materials are not sufficient for
interfacial bonding.
The fracture surface of the joints manufactured under the optimized conditions is a mixed-mode one, which indicates a good wettability of the system and a sound bonding between the joining material and the welding base materials.
Sglavo: Journal of Materials Science Vol.33 (1998), p. 2405 [2] H.
Li: Rare Metals Materials and Engineering Vol. 34, No.12 (2005), p. 1905 [3] T.
Colombo, et al: Journal of the American Ceramic Society Vol. 83, No.7 (2000), p. 1617
The fracture surface of the joints manufactured under the optimized conditions is a mixed-mode one, which indicates a good wettability of the system and a sound bonding between the joining material and the welding base materials.
Sglavo: Journal of Materials Science Vol.33 (1998), p. 2405 [2] H.
Li: Rare Metals Materials and Engineering Vol. 34, No.12 (2005), p. 1905 [3] T.
Colombo, et al: Journal of the American Ceramic Society Vol. 83, No.7 (2000), p. 1617