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Online since: October 2011
Authors: P. Kalyanasundaram, K. Ramachandran, M. Vasudevan, P. Palanichamy, M. Sivabharathy
K.K.Sankaran , Grant N J.: Materials Science and Engineering, 44 (1980) 213-227
2.
A.R.C Westwood: Materials Science and Technology, 6 (1990) 958-961 4.
A.K.Mukhopadhyay , H.M.Flower , T.Steppard: Materials Science and Technology, (1990a) 461-468 14.
H.M.Flower P.J Gregson: Materials Science and Technology, 3 (1987) 81-90 18.
G.J Kulkarni , D.Banerjee ,T.R Ramachandran: Bulletin of Materials Science, 43 (1989) 325-340 19.
A.R.C Westwood: Materials Science and Technology, 6 (1990) 958-961 4.
A.K.Mukhopadhyay , H.M.Flower , T.Steppard: Materials Science and Technology, (1990a) 461-468 14.
H.M.Flower P.J Gregson: Materials Science and Technology, 3 (1987) 81-90 18.
G.J Kulkarni , D.Banerjee ,T.R Ramachandran: Bulletin of Materials Science, 43 (1989) 325-340 19.
Online since: August 2011
Authors: Chu Hong Wang, Wen Bo Luo, Xiu Liu, Qiang Shen
Hutchinson: Progress in Polymer Science Vol.20 (1995), p.703
Struik: Physical aging in amorphous polymers and other materials (Elsevier, New York 1978)
Weng: European Journal of Mechanics - A/Solids Vol.21 (2002), p.411
Simon: Journal of Non-Crystalline Solids Vol.324 (2003), p.242
Kolarik: Journal of Polymer Science: Part B: Polymer Physics Vol.41 (2003), p.736
Struik: Physical aging in amorphous polymers and other materials (Elsevier, New York 1978)
Weng: European Journal of Mechanics - A/Solids Vol.21 (2002), p.411
Simon: Journal of Non-Crystalline Solids Vol.324 (2003), p.242
Kolarik: Journal of Polymer Science: Part B: Polymer Physics Vol.41 (2003), p.736
Online since: January 2013
Authors: Nazakat Ali, Yin Wu, Qiu Yu Zhang, Ying Chen
Journal of Applied Polymer Science, 109(3):1625-1634, 2008(8)
[3] Hüseyin ArikanFracture behavior of textile glass fiber reinforced polymer concrete according to mixed-mode, Journal of Thermoplastic Composite Materials September 2012 vol. 25 [4] Joseph Fitoussi, Effect of the matrix behavior on the damage of ethylene–propylene glassfiberreinforcedcomposite subjected to high strain rate tension, Journal Composites Part B: Engineering, in press
Materials and Manufacturing Processes Volume 27, Issue 3, 2012 [6] Tarek H.
Almusallam, Tensile properties of glass fiber-reinforced polymer bars embedded in concrete under severe laboratory and field environmental conditions,Journal of Composite Materials March 2012, [7] Yuan Fei Fu.
Hygrothermal Behavior of T700 and T300 BMI Used for Advanced Polymeric Composite Advanced Materials Research (Volumes 476 - 478), February, 2012
[3] Hüseyin ArikanFracture behavior of textile glass fiber reinforced polymer concrete according to mixed-mode, Journal of Thermoplastic Composite Materials September 2012 vol. 25 [4] Joseph Fitoussi, Effect of the matrix behavior on the damage of ethylene–propylene glassfiberreinforcedcomposite subjected to high strain rate tension, Journal Composites Part B: Engineering, in press
Materials and Manufacturing Processes Volume 27, Issue 3, 2012 [6] Tarek H.
Almusallam, Tensile properties of glass fiber-reinforced polymer bars embedded in concrete under severe laboratory and field environmental conditions,Journal of Composite Materials March 2012, [7] Yuan Fei Fu.
Hygrothermal Behavior of T700 and T300 BMI Used for Advanced Polymeric Composite Advanced Materials Research (Volumes 476 - 478), February, 2012
Online since: May 2012
Authors: Viorel Aurel Şerban, Mircea Nicoară, N. Jumate, C. Codrean, L. Bukkosi, Ioan Vida-Simiti, György Thalmaier
Bukkosi1
1Technical University of Cluj-Napoca, Department of Materials Science and Engineering
103-105 Muncii Ave., 400641 Cluj – Napoca, Romania
2 Politehnica University of Timisoara, Mechanical Faculty, 1 Mihai Viteazu Ave.,
300222 Timisoara, Romania
a Gyorgy.Thalmaier@sim.utcluj.ro
Keywords: Nickel–titanium-niobium alloys, Rapid solidification, Differential thermal analysis
Abstract.
Nickel–titanium- group 5A metal (V, Nb, Ta, Zr) alloys are known as promising hydrogen-selective membrane materials.
Journal of Membrane Science, 85, 1, 29-38 (1993)
[5] Hashi K., Ishikawa K., Matsuda T., Aoki K., Microstructures and hydrogen permeabililty of Nb-Ti-Ni alloys with high resistance to hydrogen embrittlement, Materials Transactions, 46, 5, 1026-1031 (2005)
-M., Asami K., Inoue A., An amorphous alloy membrane without noble metals for gaseous hydrogen separation, Journal of Membrane Science, 164, 1, 289–294 (2000)
Nickel–titanium- group 5A metal (V, Nb, Ta, Zr) alloys are known as promising hydrogen-selective membrane materials.
Journal of Membrane Science, 85, 1, 29-38 (1993)
[5] Hashi K., Ishikawa K., Matsuda T., Aoki K., Microstructures and hydrogen permeabililty of Nb-Ti-Ni alloys with high resistance to hydrogen embrittlement, Materials Transactions, 46, 5, 1026-1031 (2005)
-M., Asami K., Inoue A., An amorphous alloy membrane without noble metals for gaseous hydrogen separation, Journal of Membrane Science, 164, 1, 289–294 (2000)
Online since: June 2014
Authors: Jing Liu, Jing Tao Han, Xiao Xiong Wang, Qian Liu
Chan: Journal of Materials Processing Technology,Vol. 86 (1999), p.163
[2] M.
Bressan: Journal of Materials Processing Technology, Vol. 125 (2002), p.206 [3] F.
Roizard: Journal of Materials Processing Technology, Vol. 186 (2007), p.27 [4] A.
Hambli: Journal of Materials Processing Technology, Vol. 177 (2006), p.287 [7] H.
Baaijens: Journal of Materials Processing Technology, Vol. 110 (2001), p.312 [10] H.
Bressan: Journal of Materials Processing Technology, Vol. 125 (2002), p.206 [3] F.
Roizard: Journal of Materials Processing Technology, Vol. 186 (2007), p.27 [4] A.
Hambli: Journal of Materials Processing Technology, Vol. 177 (2006), p.287 [7] H.
Baaijens: Journal of Materials Processing Technology, Vol. 110 (2001), p.312 [10] H.
Online since: March 2018
Authors: Sergey Sidelnikov, Roman Galiev, Andrey Bersenev, Denis Voroshilov
[5] Bayat N., Carlberg T., Influence of Heat Treatment on the Surface Structure of 6082 Al Alloys, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science. 48(10) (2017) 5085-5094
[6] Hanke S., dos Santos J.F., Comparative study of severe plastic deformation at elevated temperatures of two aluminium alloys during friction surfacing, Journal of Materials Processing Technology. 247 (2017) 257-267
[8] Kumar V., Kumar D., Investigation of tensile behaviour of cryorolled and room temperature rolled 6082 Al alloy, Materials Science and Engineering A. 691 (2017) 211-217
Materials Science Forum. 877 (2017) 340-346
[13] Ebrahimi M., Gholipour H., Djavanroodi F., A study on the capability of equal channel forward extrusion process, Materials Science and Engineering A. 650 (2016) 1-7
[6] Hanke S., dos Santos J.F., Comparative study of severe plastic deformation at elevated temperatures of two aluminium alloys during friction surfacing, Journal of Materials Processing Technology. 247 (2017) 257-267
[8] Kumar V., Kumar D., Investigation of tensile behaviour of cryorolled and room temperature rolled 6082 Al alloy, Materials Science and Engineering A. 691 (2017) 211-217
Materials Science Forum. 877 (2017) 340-346
[13] Ebrahimi M., Gholipour H., Djavanroodi F., A study on the capability of equal channel forward extrusion process, Materials Science and Engineering A. 650 (2016) 1-7
Online since: April 2014
Authors: Katherine M. Emphasis, Reynaldo M. Vequizo, Arnold C. Alguno, Jess E. Gambe, Filchito Renè G. Bagsican, Bianca Rae B. Sambo, Majvell Kay G. Odarve, Rolando T. Canditato
Algunoc
Materials Science Laboratory, Department of Physics, Mindanao State University-Iligan Institute of Technology, Tibanga, Iligan City, Philippines 9200
akatherine.emphasis@gmail.com, bvequizorey2@gmail.com, calphaarnie@yahoo.com
Keywords: zinc oxide, silica modified polyaniline, nanocomposite, UV-Vis spectroscopy, FTIR spectroscopy
Abstract.
Brabec: Solar Energy Materials and Solar Cells 83 (2004) 273–292
Vequizo: International Journal of Materials, Mechanics and Manufacturing, Vol. 1, No. 3, August 2013 [11] Y.
Li: submitted to Journal of the Arkansas Academy of Science, Vol. 66, 2012 [13] S.
Zolriasatein: Progress in Natural Science: Materials International 22 (4) (2012) 273–280 [22] B.K.
Brabec: Solar Energy Materials and Solar Cells 83 (2004) 273–292
Vequizo: International Journal of Materials, Mechanics and Manufacturing, Vol. 1, No. 3, August 2013 [11] Y.
Li: submitted to Journal of the Arkansas Academy of Science, Vol. 66, 2012 [13] S.
Zolriasatein: Progress in Natural Science: Materials International 22 (4) (2012) 273–280 [22] B.K.
Online since: December 2013
Authors: Lin Li, Hassan A. Arafat, Raed Hashaikeh
Selke, An overview of polylactides as packaging materials.
Macromolecular Materials and Engineering, 2012: p. 75-84
Materials Letters, 2006. 60(11): p. 1331-1333
Journal of membrane science, in press, 2012(0)
Journal of membrane science, 2011
Macromolecular Materials and Engineering, 2012: p. 75-84
Materials Letters, 2006. 60(11): p. 1331-1333
Journal of membrane science, in press, 2012(0)
Journal of membrane science, 2011
Online since: January 2015
Authors: Che Chung Wang, Tom M.Y. Lin, Shih Han Lin
Innovative uses of materials for a nasogastric tube stabiliser incorporating the TRIZ method
Shih Han Lin, a, Che Chung Wang2,b and Tom M.Y.
Because of a lack of related research on this topic, there are numerous usage defects that must be addressed urgently to improve the materials used in medical devices.
When encountering technological contradictions in the development of new medical materials, compromises must be made to ensure the comfort and health of patients.
Therefore, appropriate use of the TRIZ is crucial in solving contradictions and developing ideal medical materials.
Journal of Neurology, Neurosurgery & Psychiatry, 75(6), 852
Because of a lack of related research on this topic, there are numerous usage defects that must be addressed urgently to improve the materials used in medical devices.
When encountering technological contradictions in the development of new medical materials, compromises must be made to ensure the comfort and health of patients.
Therefore, appropriate use of the TRIZ is crucial in solving contradictions and developing ideal medical materials.
Journal of Neurology, Neurosurgery & Psychiatry, 75(6), 852
Online since: June 2013
Authors: Jiao Jiao Sun, He Huang, Bo Wang, Xiang Huang
A novel solvothermal route to nanocrystalline Sn4P3 with red phosphorous as raw material
Xiang Huang1a, Jiaojiao Sun1b, He Huang1c, Bo Wang1d
1Institute of Materials Sciences and Engineering, OCean University of China, No. 238 Songling Road, Qingdao 266100, P.R.China
aemail: huangxianghd@gmail.com, bemail: materials@ouc.edu.cn, cemail: cermet@ouc.edu.cn, demail: wangbo9658@126.com
Keywords: Tin Phosphide; Sn4P3; Red Phosphorus; Solvothermal; Nanoparticles
Abstract.
As mentioned above, traditional synthesizing methods for Sn4P3 require very high temperature, resulting in sintered materials with high crystallinity and large grain sizes.
Materials Research Bulletin, 35 (2000) 675-680
Materials Research Bulletin, 33 (1998) 669-672
Materials Research Bulletin, 37 (2002) 1101-1105 [18] H.L.Su, Y.Xie, B.Li, X.M.Liu, and Y.T.Qian.
As mentioned above, traditional synthesizing methods for Sn4P3 require very high temperature, resulting in sintered materials with high crystallinity and large grain sizes.
Materials Research Bulletin, 35 (2000) 675-680
Materials Research Bulletin, 33 (1998) 669-672
Materials Research Bulletin, 37 (2002) 1101-1105 [18] H.L.Su, Y.Xie, B.Li, X.M.Liu, and Y.T.Qian.