Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: December 2012
Authors: Xiao Dan Fan, Xiang Kai Zhang
Journal of Hazardous Materials Vol.156 (2008), p. 348
[4] M.J.
Journal of Hazardous Materials Vol.153 (2008), p. 22 [9] G.
Materials letter Vol.62 (2008), p. 1704 [12] J.
Journal of Colloid and Interface Science Vol.148 (1992), p. 595 [13] X.
Journal of Hazardous Materials Vol.168 (2009), p. 1059 [14] H.H.
Journal of Hazardous Materials Vol.153 (2008), p. 22 [9] G.
Materials letter Vol.62 (2008), p. 1704 [12] J.
Journal of Colloid and Interface Science Vol.148 (1992), p. 595 [13] X.
Journal of Hazardous Materials Vol.168 (2009), p. 1059 [14] H.H.
Online since: June 2008
Authors: Lin Xiang Wang, Ying Chen, Wen Li Zhao
A non-convex
free energy function is constructed to characterize different polarization orientations in the
materials.
A non-convex free energy function is constructed to characterize different polarization orientations at mesoscale in the materials.
For the purpose, we confine our discussion here with perovskite-type materials, and in a one-dimensional description.
It is easy to show that hysteresis loops observed in the electric field in the materials are embedded in the above constitutive laws.
Hall, Journal of Materials Science, Vol. 36, (2001), 4575- 4601
A non-convex free energy function is constructed to characterize different polarization orientations at mesoscale in the materials.
For the purpose, we confine our discussion here with perovskite-type materials, and in a one-dimensional description.
It is easy to show that hysteresis loops observed in the electric field in the materials are embedded in the above constitutive laws.
Hall, Journal of Materials Science, Vol. 36, (2001), 4575- 4601
Online since: May 2012
Authors: Min Qi, Pei Wang, Zhi Yong Wei, Lian Liu, Guang Shuo Wang, Teng Yu
Graphene oxide sheets were purchased from Nanjing XFNANO Materials Tech CO.
Biomedocal Materials. 6. (2011) [4] O.C.
Journal of Applied Polymer Science. 107, 1395-1400. (2007) [6] Lu Zhang, Hipeng Wang, Yu Liu.
Journal of Materials Chemistry. 21, 10399. (2011) [7] Xin Wang, Yuan Hu, Lei Song, Hongyu.
Journal of Materials Chemistry. 21, 4222. (2011) [8] Daniela C.
Biomedocal Materials. 6. (2011) [4] O.C.
Journal of Applied Polymer Science. 107, 1395-1400. (2007) [6] Lu Zhang, Hipeng Wang, Yu Liu.
Journal of Materials Chemistry. 21, 10399. (2011) [7] Xin Wang, Yuan Hu, Lei Song, Hongyu.
Journal of Materials Chemistry. 21, 4222. (2011) [8] Daniela C.
Online since: October 2004
Authors: Bing Ye Xu, Ying Hua Liu, Hong Tao Zhang
Introduction
Composite materials have been commonly used in many high-tech fields such as automobile
industry, modern architecture, aeronautics and aerospace.
In the 1980s, Suquet [1] introduced the homogenization theory into plasticity to predict the macroscopic behaviors of ductile composite materials.
In order to generate macroscopic (homogenized) constitutive models for composite materials, a representative volume element (RVE) can be chosen to represent the periodic materials shown in Fig. 1.
This indicates that the fiber/matrix interface plays an influential role on the value of the transverse strength of the unidrectional composite materials when o 15ϕ> .
Mechanical characterization of SCS-6/Ti-6-4 metal matrix composite, Journal of Composite Materials, Vol.24 (10), 1990, 1029-59.
In the 1980s, Suquet [1] introduced the homogenization theory into plasticity to predict the macroscopic behaviors of ductile composite materials.
In order to generate macroscopic (homogenized) constitutive models for composite materials, a representative volume element (RVE) can be chosen to represent the periodic materials shown in Fig. 1.
This indicates that the fiber/matrix interface plays an influential role on the value of the transverse strength of the unidrectional composite materials when o 15ϕ> .
Mechanical characterization of SCS-6/Ti-6-4 metal matrix composite, Journal of Composite Materials, Vol.24 (10), 1990, 1029-59.
Online since: November 2012
Authors: Zhen Zhen Lei, Lian Cheng Ren, Jiu Hua Wang
Wei: Journal of Materials Processing Technology.
Vol. 129 (2002), p. 559–562 [4] Gudmundsson K H, Jonsdottir F, Thorsteinsson F: Smart Materials and Structures.
Vol. 97 (2009), p. 75-80 [6] J Huang, J M He, J Q Zhang: Key Engineering materials.
Vol. 274-276(2004), p. 969-974 [7] J Huang, L J Fu and L R Zhong: Advanced Materials Research, Vols.287-290(2011), p. 173-177
Vol. 6040 (2006), p. 475-480 [9] J Z Ma, G C Wang and D Zuo: Advanced Materials Research, Vols.239-242(2011), p.1731-1734
Vol. 129 (2002), p. 559–562 [4] Gudmundsson K H, Jonsdottir F, Thorsteinsson F: Smart Materials and Structures.
Vol. 97 (2009), p. 75-80 [6] J Huang, J M He, J Q Zhang: Key Engineering materials.
Vol. 274-276(2004), p. 969-974 [7] J Huang, L J Fu and L R Zhong: Advanced Materials Research, Vols.287-290(2011), p. 173-177
Vol. 6040 (2006), p. 475-480 [9] J Z Ma, G C Wang and D Zuo: Advanced Materials Research, Vols.239-242(2011), p.1731-1734
Online since: December 2014
Authors: Jing Jin
The buildings in cities and rural areas differ greatly in structure and material.
Journal of Natural Disaster Science,14( 1):17-28.1992 [22] E.Samardjleva, J.
Journal of Catastrophology,25(2):112-118, (In Chinese), 2010
Journal of Natural Disasters,20(4): 107-113,(In Chinese), 2011
Social Science Quarterly,84(2):242-260. 2003.
Journal of Natural Disaster Science,14( 1):17-28.1992 [22] E.Samardjleva, J.
Journal of Catastrophology,25(2):112-118, (In Chinese), 2010
Journal of Natural Disasters,20(4): 107-113,(In Chinese), 2011
Social Science Quarterly,84(2):242-260. 2003.
Online since: December 2011
Authors: Na Wang, Qing Hong Fang, Shun Li Zhou, Xiu Bin Zhang, Zhong Wang
In these important applications, owing to rubber-like material dynamic lag loss, elastomer like rubber composite materials will produce significant heat and temperature rise under the action of repeated deformation in a certain magnitude and frequency [1].
Experimental Materials Butadiene rubber (BR) and styrene–butadiene rubber (SBR) were supplied by Petrochemical Co., Jilin.
Bhowmick: Journal of Applied Polymer Science, Vol. 64(1997), p, 1541 [2] Yan He,Lianxiang M,Baoxin Sheng etal.
Journal of Materials Science, Vol.44 (2009), p, 769 [5] N.
Journal of Applied Polymer Science,,Vol.100(2006),p, 5039
Experimental Materials Butadiene rubber (BR) and styrene–butadiene rubber (SBR) were supplied by Petrochemical Co., Jilin.
Bhowmick: Journal of Applied Polymer Science, Vol. 64(1997), p, 1541 [2] Yan He,Lianxiang M,Baoxin Sheng etal.
Journal of Materials Science, Vol.44 (2009), p, 769 [5] N.
Journal of Applied Polymer Science,,Vol.100(2006),p, 5039
Online since: August 2014
Authors: Pavol Lengvarský, Jozef Bocko
This paper has opened a new area in material science and different properties of carbon nanotubes are investigated now on the basis of various treatments and theories.
Wang, A review on the application of nonlocal elastic models in modeling of carbon nanotubes and graphenes, Computational Materials Science 51 (2012) 303-313
Li, Nonlocal elasticity theory for free vibration of single-walled carbon nanotubes, Advanced Materials Research 747 (2013) 257-260
Chucheepsakul, Finite element modeling of van der Waals interaction for elastic stability of multi-walled carbon nanotubes, Advanced Materials Research 55-57 (2008) 525-528
Zhang, Research of natural frequency of single-walled carbon nanotube, Chinese Journal of Chemical Physics 20 (2007) 525-530
Wang, A review on the application of nonlocal elastic models in modeling of carbon nanotubes and graphenes, Computational Materials Science 51 (2012) 303-313
Li, Nonlocal elasticity theory for free vibration of single-walled carbon nanotubes, Advanced Materials Research 747 (2013) 257-260
Chucheepsakul, Finite element modeling of van der Waals interaction for elastic stability of multi-walled carbon nanotubes, Advanced Materials Research 55-57 (2008) 525-528
Zhang, Research of natural frequency of single-walled carbon nanotube, Chinese Journal of Chemical Physics 20 (2007) 525-530
Online since: July 2015
Authors: Li Zhong Wang, Quan Wei Liu, Wan Xiao Sun, Pei Ze Zhong
Creep is a rate-dependent material nonlinearity in which the material continues to deform under a constant load.
Reference [1]H.Carre and L.Daudeville.Numerical Simulation of Soda-Lime Silicate Glass Tempering[J].JOURNAL DE PHYSIQUE IV,1996,6(C1):175-185
[2]Laurent Daudeville and Helene Carre.THERMAL TEMPERING SIMULATION OF GLASS PLATES:INNER AND EDGE RESIDUAL STRESSES[J].Journal of Thermal Stresses,1998, 21(6): 667-689
Creep of testing of glass-ceramics[J].Journal of Materials Science,1974(9):1255-1261
Journal of Materials Science,1992,27:279-284.
Reference [1]H.Carre and L.Daudeville.Numerical Simulation of Soda-Lime Silicate Glass Tempering[J].JOURNAL DE PHYSIQUE IV,1996,6(C1):175-185
[2]Laurent Daudeville and Helene Carre.THERMAL TEMPERING SIMULATION OF GLASS PLATES:INNER AND EDGE RESIDUAL STRESSES[J].Journal of Thermal Stresses,1998, 21(6): 667-689
Creep of testing of glass-ceramics[J].Journal of Materials Science,1974(9):1255-1261
Journal of Materials Science,1992,27:279-284.
Online since: September 2011
Authors: H. H. Wisselink, T. Meinders, M.S. Niazi
Meinders2, c
1 Materials Innovation Institute, P.O.
In this work, Lemaitre’s anisotropic damage model has been slightly modified for sheet metal forming applications and for strain rate dependent materials.
The formability of these materials is limited mainly due to damage development [1].
Geers, Mechanics of Materials Vol. 41(2009), p. 1264–1276
Lim, International Journal of Mechanical Sciences Vol. 50(2008), p. 918–931
In this work, Lemaitre’s anisotropic damage model has been slightly modified for sheet metal forming applications and for strain rate dependent materials.
The formability of these materials is limited mainly due to damage development [1].
Geers, Mechanics of Materials Vol. 41(2009), p. 1264–1276
Lim, International Journal of Mechanical Sciences Vol. 50(2008), p. 918–931