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Online since: July 2015
Authors: Jean Claude Gelin, Thierry Barrière, Alexandre Royer
Materials and methods
The polymers used for this study are the polypropylene, the polyethylene glycol and the stearic acid [8].
Loh, Metal Injection Moulding: effects of the vinyl acetate content on binder behavior, Journal of Materials Processing Technology 67 (1997) 120-125
Tuc, Investigation of Properties of Powder Injection-Molded Steatites, Journal of Materials Engineering and Performance 21 (2011) 358–365
Stampino, Thermal evolution of PEG-based and Brij-based hybrid organo-inorganic materials.
Ozone degradation of Polyethylene Glycol in water, Journal of applied polymer science 20 (1976) 93-103
Loh, Metal Injection Moulding: effects of the vinyl acetate content on binder behavior, Journal of Materials Processing Technology 67 (1997) 120-125
Tuc, Investigation of Properties of Powder Injection-Molded Steatites, Journal of Materials Engineering and Performance 21 (2011) 358–365
Stampino, Thermal evolution of PEG-based and Brij-based hybrid organo-inorganic materials.
Ozone degradation of Polyethylene Glycol in water, Journal of applied polymer science 20 (1976) 93-103
Online since: June 2012
Authors: Li Li, Feng Shi Yin, Xiang Cheng
For large amounts of Nd element and strong reactions, Nd-Fe-B permanent magnetic materials were easily oxidized.
Experimental procedures Materials and specification.
Sun: Journal of Magnetism and Magnetic Materials Vol.308(2007), p. 20 [2] F.
Nevalainen: Journal of Magnetism and Magnetic Materials Vol.2002(242-245), p.132 [3] Matsuura Yutaka: Journal of Magnetism and Magnetic Materials Vol. 303:344(2006), p.226 [4] A.
Leung: Journal of Magnetism and Magnetic Materials Vol.152 (1-2) (1996), p.40
Experimental procedures Materials and specification.
Sun: Journal of Magnetism and Magnetic Materials Vol.308(2007), p. 20 [2] F.
Nevalainen: Journal of Magnetism and Magnetic Materials Vol.2002(242-245), p.132 [3] Matsuura Yutaka: Journal of Magnetism and Magnetic Materials Vol. 303:344(2006), p.226 [4] A.
Leung: Journal of Magnetism and Magnetic Materials Vol.152 (1-2) (1996), p.40
Online since: February 2020
Authors: Subash Chandra Mishra, Jagadish Parida, Suresh Chandra Pattnaik
Wear Behavior of Plasma Processed LM6 Alloy
Jagadish Parida1, Subash Chandra Mishra2, Suresh Chandra Pattnaik3
1,3Department of Metallurgical and Materials Engineering, I.G.I.T, Sarang, Odisha, India.
2Department of Metallurgical and Materials Engineering, NIT, Rourkela, Odisha, India.
Chown, “Aluminium matrix hybrid composites: A review of reinforcement philosophies; mechanical, corrosion and tribological characteristics,” Journal of Materials Research and Technology, 4 (2015) 434–445
Malakhov, “Effect of Ce and La on microstructure and properties of a 6xxx series type aluminum alloy,” Journal of Materials Science, vol. 43, no. 22, pp. 7157–7164, 2008
[5] Yasmin Tuti, Khalid Asad A, Haque M.M, “Tribological (wear) properties of aluminum–silicon eutectic base alloy under dry sliding condition”, Journal of Materials Processing Technology, 153–154 (2004)
“Study on wear properties of aluminium–silicon piston alloy”, Journal of Materials Processing Technology, 118(1), 69-73
Chown, “Aluminium matrix hybrid composites: A review of reinforcement philosophies; mechanical, corrosion and tribological characteristics,” Journal of Materials Research and Technology, 4 (2015) 434–445
Malakhov, “Effect of Ce and La on microstructure and properties of a 6xxx series type aluminum alloy,” Journal of Materials Science, vol. 43, no. 22, pp. 7157–7164, 2008
[5] Yasmin Tuti, Khalid Asad A, Haque M.M, “Tribological (wear) properties of aluminum–silicon eutectic base alloy under dry sliding condition”, Journal of Materials Processing Technology, 153–154 (2004)
“Study on wear properties of aluminium–silicon piston alloy”, Journal of Materials Processing Technology, 118(1), 69-73
Online since: February 2017
Authors: Tamás Mikó, Gábor Szabó, Péter Barkóczy
Acknowledgement
This research was (partially) carried out in the framework of the Center of Applied Materials Science and Nano-Technology at the University of Miskolc.
Kocks, Forward and Reverse Rearrangements of Dislocations in Tangled Walls, Materials Science and Engineering, 81 (1986) pp.189-199. [2] T.
Karashima, Deformation Behaviour and Dislocation Structures upon Stress Reversal in Polycrystalline Aluminium, Materials Science and Engineering, 20 (1975) pp. 267-276
Mecking, Physics and phenomenology of strain hardening: the FCC case, Progress in Materials Science 48 (2003) pp. 171–273
Higginson, Strain path effects under hot working: an introduction, Journal of Materials Processing Technology 98 (2000) pp. 267-291.
Kocks, Forward and Reverse Rearrangements of Dislocations in Tangled Walls, Materials Science and Engineering, 81 (1986) pp.189-199. [2] T.
Karashima, Deformation Behaviour and Dislocation Structures upon Stress Reversal in Polycrystalline Aluminium, Materials Science and Engineering, 20 (1975) pp. 267-276
Mecking, Physics and phenomenology of strain hardening: the FCC case, Progress in Materials Science 48 (2003) pp. 171–273
Higginson, Strain path effects under hot working: an introduction, Journal of Materials Processing Technology 98 (2000) pp. 267-291.
Online since: October 2014
Authors: Ching Yee Yong, Rubita Sudirman, Kim Mey Chew
Sports Science.
Suen: Concept map assessment of classroom learning: Reliability, validity, and logistical practicality, Journal of research in science teaching, Vol. 36, No. 4, (1999) p. 475-492
Mahmood: Distance: A Moderator Between Walking Activity and Pattern Classification, International Journal of Advances in Applied Sciences, Vol. 1, No. 2, (2012) p. 85-90
Chew: Human Body and Body Part Movement Analysis Using Gyroscope, Accelerometer and Compass, Applied Mechanics and Materials, Vol. 284, (2013) p. 3120-3125
Chew: Human Hand Movement Analysis Using Principle Component Analysis Classifier, Applied Mechanics and Materials, Vol. 284, (2013) p. 3126-3130
Suen: Concept map assessment of classroom learning: Reliability, validity, and logistical practicality, Journal of research in science teaching, Vol. 36, No. 4, (1999) p. 475-492
Mahmood: Distance: A Moderator Between Walking Activity and Pattern Classification, International Journal of Advances in Applied Sciences, Vol. 1, No. 2, (2012) p. 85-90
Chew: Human Body and Body Part Movement Analysis Using Gyroscope, Accelerometer and Compass, Applied Mechanics and Materials, Vol. 284, (2013) p. 3120-3125
Chew: Human Hand Movement Analysis Using Principle Component Analysis Classifier, Applied Mechanics and Materials, Vol. 284, (2013) p. 3126-3130
Online since: May 2022
Authors: Aizhan Kissambinova, Ayazhan Bazarbekova, Saken Sandybay, Jong Ryeol Kim, Chang Seon Shon, Dichuan Zhang
Different stabilizing materials are used worldwide for soil stabilization purposes [14].
Materials, Mixtures, and Test Methods Materials.
Advances in Materials Science And Engineering 2020: 1-23. doi:10.1155/2020/1510969
Case Studies in Construction Materials 13: e00427. doi:10.1016/j.cscm.2020.e00427
Journal of Materials in Civil Engineering 31 (6): 04019076. doi:10.1061/(ASCE)mt.1943-5533.0002729
Materials, Mixtures, and Test Methods Materials.
Advances in Materials Science And Engineering 2020: 1-23. doi:10.1155/2020/1510969
Case Studies in Construction Materials 13: e00427. doi:10.1016/j.cscm.2020.e00427
Journal of Materials in Civil Engineering 31 (6): 04019076. doi:10.1061/(ASCE)mt.1943-5533.0002729
Online since: October 2010
Authors: C.H. Chen, J.J. Kai, F.R. Chen, Y. Katoh
Hasegawa et al., Journal of Nuclear Materials 329–333 (2004) 582–586.;
**:T.Taguchi et al., Journal of Nuclear Materials 335 (2004) 508–514.
Snead, Journal of Nuclear Materials 258-263 (1998) 215-225
Snead, Journal of Nuclear Materials 329–333 (2004) 56–65 [7] R.H.
Hasegawa, Journal of Nuclear Materials 335 (2004) 508–514 [15] T.
Abe, Journal of Nuclear Materials 329–333 (2004) 582–586 [20] P.
Snead, Journal of Nuclear Materials 258-263 (1998) 215-225
Snead, Journal of Nuclear Materials 329–333 (2004) 56–65 [7] R.H.
Hasegawa, Journal of Nuclear Materials 335 (2004) 508–514 [15] T.
Abe, Journal of Nuclear Materials 329–333 (2004) 582–586 [20] P.
Online since: August 2018
Authors: Bin Liu, Mei Mei Zhang, Ying Hao Feng, Xiao Feng Li
International Journal of Refractory Metals and Hard Materials, 2013, 39: 61-77
Materials Science and Engineering: A, 1996, 209(1): 228-230
International Journal of Refractory Metals & Hard Materials, 2014, 42(1), 30-35
International Journal of Refractory Metals and Hard Materials, 2013, 40: 27-35
Materials Science and Engineering: A, 2006;426(1): 346-354. 53-58
Materials Science and Engineering: A, 1996, 209(1): 228-230
International Journal of Refractory Metals & Hard Materials, 2014, 42(1), 30-35
International Journal of Refractory Metals and Hard Materials, 2013, 40: 27-35
Materials Science and Engineering: A, 2006;426(1): 346-354. 53-58
Online since: August 2009
Authors: B.C. Li, Qiang Wang, Zhi Min Zhang, Y.J. Wu, X. Zhang
Now, magnesium and magnesium alloys have been extensively applied to the fields, such as,
navigation, astronavigation, "3C" products in automobile industry and military industry, and climbed
up to the top materials to decrease energy exhausted and protect environment.
Currently, countries enjoying developed industries have already engaged in the study and exploration of processing materials of magnesium alloys with high capability in deformation [3].
Materials and Methods for Experiment The chemical constitution of the AZ80 magnesium alloy, provided by the Key Lab of Electromagnetic Processing of Materials of the Ministry of Education at Northeast University, in the experiment was displayed in Table 1.
Acknowledge This paper was supported by National Natural Foundation of China (No.50735005, No.50605059) , projects from Shanxi Provincial Science Foundation for Youths (No.2007021026) and Development for Science and Technology in Higher Educational Institutes (No.20081027) .
[2] H.Friedrich, S.Schumann: Journal of Materials Processing Technology Vol. 117 (2001), p.276 [3] M.P.LIU, C.J.MA, et al.: The Chinese Journal of Nonferrous Metals Vol. 12(4) (2002), p.797 (Chinese) [4] Q.GUO, H.G.YAN, et al.: The Chinese Journal of Nonferrous Metals Vol. 15(6) (2005), p.900 (Chinese) [5] H.Takuda, H.Fujimoto, and N.Hatta: Journal of Materials Processing Technology Vol. 80 (1998), p.513 [6] Y.Yoshida, K.Arai, et al.: Sci & Tech of Advan Mater Vol. 6(2005), p.185 [7] X.ZHANG, Z.M.ZHANG, B.C.LI: journal of Plasticity Engineering Vol. 11(3) (2004), p.52 (Chinese) [8] N.LUAN, L.X.LI, et al.: The Chinese Journal of Nonferrous Metals Vol. 17(10) (2007), p.1678 (Chinese)
Currently, countries enjoying developed industries have already engaged in the study and exploration of processing materials of magnesium alloys with high capability in deformation [3].
Materials and Methods for Experiment The chemical constitution of the AZ80 magnesium alloy, provided by the Key Lab of Electromagnetic Processing of Materials of the Ministry of Education at Northeast University, in the experiment was displayed in Table 1.
Acknowledge This paper was supported by National Natural Foundation of China (No.50735005, No.50605059) , projects from Shanxi Provincial Science Foundation for Youths (No.2007021026) and Development for Science and Technology in Higher Educational Institutes (No.20081027) .
[2] H.Friedrich, S.Schumann: Journal of Materials Processing Technology Vol. 117 (2001), p.276 [3] M.P.LIU, C.J.MA, et al.: The Chinese Journal of Nonferrous Metals Vol. 12(4) (2002), p.797 (Chinese) [4] Q.GUO, H.G.YAN, et al.: The Chinese Journal of Nonferrous Metals Vol. 15(6) (2005), p.900 (Chinese) [5] H.Takuda, H.Fujimoto, and N.Hatta: Journal of Materials Processing Technology Vol. 80 (1998), p.513 [6] Y.Yoshida, K.Arai, et al.: Sci & Tech of Advan Mater Vol. 6(2005), p.185 [7] X.ZHANG, Z.M.ZHANG, B.C.LI: journal of Plasticity Engineering Vol. 11(3) (2004), p.52 (Chinese) [8] N.LUAN, L.X.LI, et al.: The Chinese Journal of Nonferrous Metals Vol. 17(10) (2007), p.1678 (Chinese)
Online since: November 2011
Authors: Saktioto Saktioto, A. Mohamad, M. S. Roslan, Jalil Ali
The crystals of LiNbO3, (Ba, Sr)TiO3, K(Ta, Nb)O3 and KH2PO4 are used as electro-optic core materials.
The polymer materials have been chosen for the past few years because their benefit of low cost production and the wide range of refractive indices [3].
Table 1: Refractive index and electro-optic coefficient materials [2,9].
Design and simulation of ring resonator optical switches using electro-optic materials.
Journal of Lightwave Technology, 2002. 20(11)
The polymer materials have been chosen for the past few years because their benefit of low cost production and the wide range of refractive indices [3].
Table 1: Refractive index and electro-optic coefficient materials [2,9].
Design and simulation of ring resonator optical switches using electro-optic materials.
Journal of Lightwave Technology, 2002. 20(11)