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Online since: December 2013
Authors: Quan Kai Wang, Yong Guang Yin, Ni Na Bao
Material and Methods
Materials.
Li: Journal of Food Composition and Analysis, Vol. 22 (2009), p. 72
Zhang: Chinese Journal of Chemical Engineering, Vol.17 (2009) No.3, p. 373
Bai: Journal of Gerontology, Vol.12 (1992), p.165
Du: Journal of the Neurological Sciences Vol. 1-2(2013) No.324, p. 140.
Li: Journal of Food Composition and Analysis, Vol. 22 (2009), p. 72
Zhang: Chinese Journal of Chemical Engineering, Vol.17 (2009) No.3, p. 373
Bai: Journal of Gerontology, Vol.12 (1992), p.165
Du: Journal of the Neurological Sciences Vol. 1-2(2013) No.324, p. 140.
Online since: December 2011
Authors: A. Gherissi, Joel Alexis, Fethi Abbassi, Ali Zghal, Sébastien Mistou
Micro-scale modeling of carbon-fiber reinforced thermoplastic materials
F.
Gray; Multiscale Modeling and Simulation of Composite Materials andStructures: Chapter 5: A Micromechanics-Based Notion of Stress for Use in the Determination of Continuum-Level Mechanical Properties via Molecular Dynamics; Springer Science (2008) [2] P.
Boisse: Computational determination of in-plane shear mechanical behavior of textile composite reinforcements, Computational Materials Science 40 (2007) 439–448 [7] P.
Alzina: Multiscale modelling of thermal conductivity in composite materials for cryogenic structures, Composite Structures 74 (2006) 175–185 [12] Jayesh R.
Trias: Random models versus periodic models for fibre reinforced composites, Computational Materials Science 38 (2006) 316–324 [14] B.Van Den Broucke: Determination of the mechanical propreties of textile-reinforced composites taking into account textile forming parameters; Springer/ESAFORM (2010) [15] Moran Wang, Ning Pan: Elastic property of multiphase composites with random microstructures; Journal of Computational Physics 228 (2009) 5978–5988 [16] W.
Gray; Multiscale Modeling and Simulation of Composite Materials andStructures: Chapter 5: A Micromechanics-Based Notion of Stress for Use in the Determination of Continuum-Level Mechanical Properties via Molecular Dynamics; Springer Science (2008) [2] P.
Boisse: Computational determination of in-plane shear mechanical behavior of textile composite reinforcements, Computational Materials Science 40 (2007) 439–448 [7] P.
Alzina: Multiscale modelling of thermal conductivity in composite materials for cryogenic structures, Composite Structures 74 (2006) 175–185 [12] Jayesh R.
Trias: Random models versus periodic models for fibre reinforced composites, Computational Materials Science 38 (2006) 316–324 [14] B.Van Den Broucke: Determination of the mechanical propreties of textile-reinforced composites taking into account textile forming parameters; Springer/ESAFORM (2010) [15] Moran Wang, Ning Pan: Elastic property of multiphase composites with random microstructures; Journal of Computational Physics 228 (2009) 5978–5988 [16] W.
Online since: May 2019
Authors: Alexander Valerievich Tereshkin, Irina Vladimirovna Kirichkova, Vladimir Viktorovich Kruglyak
Today, the priorities of scientific and applied technological developments of both traditional building materials and materials of new generations are determined by the actualization of the concept and criteria of resource saving and energy efficiency.
Introduction At the present stage of development of construction materials science and industrial production, hardening systems and composites obtained on the basis of Portland on energy-saving contact-condensation technology may be in demand.
V., Concretes and products from slag and ash materials.
In the collection of works "Problems and ways of creation of composite materials and technologies from secondary mineral resources".
[10] Thermodynamic and electronic aspects of the properties of composite materials for construction and environmental protection.
Introduction At the present stage of development of construction materials science and industrial production, hardening systems and composites obtained on the basis of Portland on energy-saving contact-condensation technology may be in demand.
V., Concretes and products from slag and ash materials.
In the collection of works "Problems and ways of creation of composite materials and technologies from secondary mineral resources".
[10] Thermodynamic and electronic aspects of the properties of composite materials for construction and environmental protection.
Online since: September 2009
Authors: Dian Rong Luan, Fei Hu Zhang, Shao Long Guo, Yong Zhang
KDP crystal is a kind of good
electro-optic nonlinear optical material developed in 1940s.
", "Property of some materials to absorb moisture from the environment and become liquid
The Material Removal Mechanism in Deliquescent Polishing of KDP Crystals.
Acknowledgement The authors appreciated the financial support from the National Natural Science Foundation of China (Grant No. 50535020).
Tong, Lambropoulos and John C.: Journal of the American Ceramic Society, Vol. 85 (2002), pp.174-178
", "Property of some materials to absorb moisture from the environment and become liquid
The Material Removal Mechanism in Deliquescent Polishing of KDP Crystals.
Acknowledgement The authors appreciated the financial support from the National Natural Science Foundation of China (Grant No. 50535020).
Tong, Lambropoulos and John C.: Journal of the American Ceramic Society, Vol. 85 (2002), pp.174-178
Online since: January 2010
Authors: Gaëtan Gilles, Anne Marie Habraken, Laurent Duchêne
Phenomenological yield criteria are generally described by many material parameters.
They also acknowledge the Belgian Federal Science Policy Office (Contract P6/24).
Teller: Journal of Chemical Physics Vol. 21 (1953), p. 1087 [2] W.K.
Barlat: International Journal of Plasticity Vol. 22 (2006), p. 1171 [4] E.
Farrokh: International Journal of Plasticity Vol. 23 (2007), p. 931 [8] O.
They also acknowledge the Belgian Federal Science Policy Office (Contract P6/24).
Teller: Journal of Chemical Physics Vol. 21 (1953), p. 1087 [2] W.K.
Barlat: International Journal of Plasticity Vol. 22 (2006), p. 1171 [4] E.
Farrokh: International Journal of Plasticity Vol. 23 (2007), p. 931 [8] O.
Online since: August 2014
Authors: Zhi Qiang Xu
The optical properties of the film differs from its respective bulk materials.
Journal of Semiconductors, 2005,26 (2): 335-340
Several Infrared Optical Characteristics of Thin Film Materials [J].
Hefei: China University of Science and Technology Press 2001
Beijing: Science Press, 2007
Journal of Semiconductors, 2005,26 (2): 335-340
Several Infrared Optical Characteristics of Thin Film Materials [J].
Hefei: China University of Science and Technology Press 2001
Beijing: Science Press, 2007
Online since: August 2019
Authors: N. Arivazhagan, T. Ram Prabhu, K. Jithesh, R.V. Anant, A. Srinivasan, M. Arivarasu, R.K. Mishra
Materials Science and Engineering: A530 (2011): 446-451
Materials Science and Engineering: A 527.4-5 (2010): 1255-1259
Materials Science and Engineering: A 349.1-2 (2003): 207-212
Journal of materials research 20.5 (2005): 1278-1286
Science and technology of advanced materials 15.2 (2014): 024801
Materials Science and Engineering: A 527.4-5 (2010): 1255-1259
Materials Science and Engineering: A 349.1-2 (2003): 207-212
Journal of materials research 20.5 (2005): 1278-1286
Science and technology of advanced materials 15.2 (2014): 024801
Online since: July 2023
Authors: Haia Aldosari
Dussault, et al., Texturising and structurising mechanisms of carbon nanofilaments during growth, Journal of Materials Chemistry. 17(2007) 4611–4618
Journal of Materials Science. 57(2022)3923–3953
Andrews, “Carbon nanotubes: synthesis, properties, and applications,” Critical Reviews in Solid State and Materials Sciences. 26(2001) 145–249
Popov "Carbon nanotubes: properties and application" Materials Science and Engineering R. 43(2004)61–102
Harris “Carbon nanotubes science Synthesis, properties and applications”, A Journal of German Chemical society. 10(2010)
Journal of Materials Science. 57(2022)3923–3953
Andrews, “Carbon nanotubes: synthesis, properties, and applications,” Critical Reviews in Solid State and Materials Sciences. 26(2001) 145–249
Popov "Carbon nanotubes: properties and application" Materials Science and Engineering R. 43(2004)61–102
Harris “Carbon nanotubes science Synthesis, properties and applications”, A Journal of German Chemical society. 10(2010)
Online since: March 2013
Authors: Yung Cheng Wang, Chih Chin Ko, Tien Shu Chang
For high loss materials, loss tangent of the materials is obtained from the
Lorenzian curve fit around the resonant peak.
Research on mechanical properties of materials via cantilever beams are numerous.
The materials are manufactured by Alfa Aesar (www.alfa.com) with high purity.
For materials with moderate damping, such as polymers, the loss tangent of the materials can be determined from the Lorentizan curve fit for selected resonant peaks.
Esashi: Journal of Microelectromechanical Systems Vol. 11 (2002) p. 775
Research on mechanical properties of materials via cantilever beams are numerous.
The materials are manufactured by Alfa Aesar (www.alfa.com) with high purity.
For materials with moderate damping, such as polymers, the loss tangent of the materials can be determined from the Lorentizan curve fit for selected resonant peaks.
Esashi: Journal of Microelectromechanical Systems Vol. 11 (2002) p. 775
Online since: June 2014
Authors: Sitikhadijah Hubadillah, Sulaiman Hasan, Muhamad Zaini Yunos, Zawati Harun
Experimental
Materials.
Kingsbury and K.Li, Journal of Membrane Science (2009). 328(1-2): p. 134-140
[5] RosalamSarbatly, Journal of Applied Science (2011). 11(13): p. 2306-2312
Teo, Journal of Membrane Science, 2000.176(2): p.147-158
Cui: submitted to Journal of Membrane Science (2006)
Kingsbury and K.Li, Journal of Membrane Science (2009). 328(1-2): p. 134-140
[5] RosalamSarbatly, Journal of Applied Science (2011). 11(13): p. 2306-2312
Teo, Journal of Membrane Science, 2000.176(2): p.147-158
Cui: submitted to Journal of Membrane Science (2006)