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Online since: August 2019
Authors: Siddhartha Kosti, JITENDER KUNDU
Journal of Material Science and Engineering, 2(1):1-4
Journal of Materials Processing Technology, 210:618-623
Journal of Nuclear Materials, 470:13-29
Journal of Materials Processing Technology, 142:738-743
Journal of Materials Processing Technology, 209:4795-4801
Journal of Materials Processing Technology, 210:618-623
Journal of Nuclear Materials, 470:13-29
Journal of Materials Processing Technology, 142:738-743
Journal of Materials Processing Technology, 209:4795-4801
Online since: August 2021
Authors: Olusola Olaitan Ayeleru, Sisanda Dlova, Peter Apata Olubambi, Feyisayo Victoria Adams, Messai A. Mamo
These are also known as nanocarbon materials [8, 9].
South African Journal of Science, 2011. 107(3-4): p. 01-15
Journal of Materials Chemistry, 2011. 21(40): p. 15872-15884
Materials today, 2013. 16(10): p. 365-373
Journal of Global Scholars of Marketing Science, 2018. 28(2): p. 103-159
South African Journal of Science, 2011. 107(3-4): p. 01-15
Journal of Materials Chemistry, 2011. 21(40): p. 15872-15884
Materials today, 2013. 16(10): p. 365-373
Journal of Global Scholars of Marketing Science, 2018. 28(2): p. 103-159
Online since: September 2018
Authors: Artem V. Levchenko, Aleksei E. Polikutin, Yuri B. Potapov
Barabash, Effective sealing material on the basis of modified rubber, Building materials. 4 (2008) 71-75
PhD of tech. sciences: 05.23.01, Voronezh, 2010
PhD of tech. sciences, Voronezh, 2001
Potapov, High-performance composites based on liquid rubbers, in: Materials of international scientific-technical conference (IV Academic reading RAASN) "Actual problems of construction material science": collection of scientific works, Penza, 1998, pp.16-17
Potapov, Rubcon – a new class of corrosion resistant construction materials, Building materials of the XXI century. 9 (2000) 9-10
PhD of tech. sciences: 05.23.01, Voronezh, 2010
PhD of tech. sciences, Voronezh, 2001
Potapov, High-performance composites based on liquid rubbers, in: Materials of international scientific-technical conference (IV Academic reading RAASN) "Actual problems of construction material science": collection of scientific works, Penza, 1998, pp.16-17
Potapov, Rubcon – a new class of corrosion resistant construction materials, Building materials of the XXI century. 9 (2000) 9-10
Online since: July 2016
Authors: Heng Keong Kam, Wen Chiet Cheong, Chan Chin Wang, Ying Pio Lim
Journal of Materials Processing Technology. 141 (2003) 29–34
[3] Y.P.
Lim, Evaluation of Al-5Ti-1B and Al-10Sr in LM6 sand castings, Journal of Achievements in Materials and Manufacturing Engineering. 34/1 (2009) 71-78
Materials and Product Technology. 1-2(2009) 173-182 [5] C.C.
Wang, Finite element simulation for forging process using euler’s fixed meshing method, Materials Science Forum. 575-578 (2008) 1139-1144
Mori, Finite element method for rigid-plastic analysis of metal forming – Formulation for finite deformation, International Journal of Mechanical Sciences. 24(1982), 459–468
Lim, Evaluation of Al-5Ti-1B and Al-10Sr in LM6 sand castings, Journal of Achievements in Materials and Manufacturing Engineering. 34/1 (2009) 71-78
Materials and Product Technology. 1-2(2009) 173-182 [5] C.C.
Wang, Finite element simulation for forging process using euler’s fixed meshing method, Materials Science Forum. 575-578 (2008) 1139-1144
Mori, Finite element method for rigid-plastic analysis of metal forming – Formulation for finite deformation, International Journal of Mechanical Sciences. 24(1982), 459–468
Online since: March 2018
Authors: Marvin U. Herrera, Armida Gillado, Ava Mari Jonea Leonor
Bayramoglu Journal of Hazardous Materials B124 (2005) pp. 241–246
Zhu, Solar Energy Materials & Solar Cells 153 (2016) pp.1–8
Ackermann, Journal of Colloid and Interface Science 386 (2012) pp. 268–276
Prodigalidad and M.U.Herrera, Key Engineering Materials 705 (2016) pp. 385-389
Yang, Journal of Hazardous Materials 280 (2014) pp. 20–30 [21] M.S.
Zhu, Solar Energy Materials & Solar Cells 153 (2016) pp.1–8
Ackermann, Journal of Colloid and Interface Science 386 (2012) pp. 268–276
Prodigalidad and M.U.Herrera, Key Engineering Materials 705 (2016) pp. 385-389
Yang, Journal of Hazardous Materials 280 (2014) pp. 20–30 [21] M.S.
Online since: November 2015
Authors: A. Rajaraman, Philip Saratha Joanna, Dalbir Singh, C. Ganesan
But behavior of advanced composites with respect to different loading conditions is a complex issue due to their non homogeneity nature which causes failure in quite different manners than homogeneous materials [1].
The main reason is that mechanical properties of composite materials vary significantly with changing the displacement rate and strain rate due to their non homogeneity nature [2, 3].
This clearly shows that in design level GFRP and CFRP more suitable when compared to kevlar when the materials are subjected to varying loading conditions.
At design level GFRP and CFRP more suitable when compared to kevlar when the materials are subjected to varying loading conditions.
Gurusideswar, Strain Rate Dependent Behavior of Glass/Nano Clay Filled Epoxy Resin Composite, Defence Science Journal.64 (2014)295-302
The main reason is that mechanical properties of composite materials vary significantly with changing the displacement rate and strain rate due to their non homogeneity nature [2, 3].
This clearly shows that in design level GFRP and CFRP more suitable when compared to kevlar when the materials are subjected to varying loading conditions.
At design level GFRP and CFRP more suitable when compared to kevlar when the materials are subjected to varying loading conditions.
Gurusideswar, Strain Rate Dependent Behavior of Glass/Nano Clay Filled Epoxy Resin Composite, Defence Science Journal.64 (2014)295-302
Online since: August 2012
Authors: Uilame Umbelino Gomes, Claudia P.T. Cruz, Elcio Correia de Souza Tavares
Overall, however, the manufacturing process is imperfect; leading to inappropriate use of raw materials, waste of energy, environmental degradation, nonconformity to the Brazilian and international standards, etc.
Weibull Statistics Weibull statistics can be used to quantify the distribution of strengths for weakest link fragile materials like ceramics.
Bergmann: Journal of the Materials Science Letters Vol. 3 (1983) p. 689
Xu: Journal of Materials Research Vol. 26, (2011), p 2087
Stoner and Jeffrey Thompson: Journal of Materials Science: Materials in Medicine Volume 18 (6) (2007), p. 1219
Weibull Statistics Weibull statistics can be used to quantify the distribution of strengths for weakest link fragile materials like ceramics.
Bergmann: Journal of the Materials Science Letters Vol. 3 (1983) p. 689
Xu: Journal of Materials Research Vol. 26, (2011), p 2087
Stoner and Jeffrey Thompson: Journal of Materials Science: Materials in Medicine Volume 18 (6) (2007), p. 1219
Online since: November 2011
Authors: Bao Zhang, Jia Feng Zhang
Journal of Luoyang Technology College, Forum Vol. 15(2005), p. 10
[5] LIU Qi, WANG Bin, ZHOU Hua-qiang.
Journal of Hazardous Materials, Forum Vol. 142(2007), p. 38 [10] P.
Journal of Colloid and Interface Science, Forum Vol. 288(2005), p. 57 [13] Fu-Shen Zhang, Hideaki Itoh.
Metallurgical Separation Science and Engineering[M].
Bei-jing: Science Press, 2004
Journal of Hazardous Materials, Forum Vol. 142(2007), p. 38 [10] P.
Journal of Colloid and Interface Science, Forum Vol. 288(2005), p. 57 [13] Fu-Shen Zhang, Hideaki Itoh.
Metallurgical Separation Science and Engineering[M].
Bei-jing: Science Press, 2004
Online since: October 2025
Authors: Yu Chen Sun, Chen Xiang Wang
In asymmetric hybrid supercapacitors, the electrodes use dissimilar materials, such as materials with different charge storing mechanisms.
The cathode and anode materials also have different potential windows to achieve maximum potential.
Advanced Materials, 25(29):4035–4042, May 2013
APL Materials, 7(10), October 2019
Science China Materials, 61(2):254–262, January 2018.
The cathode and anode materials also have different potential windows to achieve maximum potential.
Advanced Materials, 25(29):4035–4042, May 2013
APL Materials, 7(10), October 2019
Science China Materials, 61(2):254–262, January 2018.
Online since: June 2013
Authors: Denis Mazuyer, Tarek Mabrouki, Joël Rech, Fabien Perrard, Enrico D'Eramo, Cédric Courbon
Materials Science and Engineering
A, 374(1-2):90 - 100, 2004
International Journal of Material Forming, 3:439-442, 2010
Journal of Materials Processing Technology, 122(2-3):322 - 330, 2002
Journal of Materials Processing Technology, 140(1-3):84 - 89, 2003
Advanced Materials Research, 223:286 - 295, 2011
International Journal of Material Forming, 3:439-442, 2010
Journal of Materials Processing Technology, 122(2-3):322 - 330, 2002
Journal of Materials Processing Technology, 140(1-3):84 - 89, 2003
Advanced Materials Research, 223:286 - 295, 2011