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Online since: January 2015
Authors: Vladimir Lalin, Elizaveta Zdanchuk
Gravity flow of granular materials in Hoppers and bins in mines (1965) International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, Volume 2, Issue 3, pp. 277–292
[7] Peijun Guo, Xubin Su, Shear strength, interparticle locking, and dilatancy of granular materials (2007) Canadian Geotechnical Journal, 44(5), pp. 579-591
Permeability of compacted granular materials (1984) Canadian Geotechnical Journal, 21(4), pp.726-729
Bio-Materials and Prototyping Applications in Medicine (2007) Bio-Materials and Prototyping Applications in Medicine, 227 p
Nonlinear thermodynamic model for reduced Cosserat continuum (2014) International Journal of Mathematical Models and Methods in Applied Sciences, V. 8, pp. 208-213
[7] Peijun Guo, Xubin Su, Shear strength, interparticle locking, and dilatancy of granular materials (2007) Canadian Geotechnical Journal, 44(5), pp. 579-591
Permeability of compacted granular materials (1984) Canadian Geotechnical Journal, 21(4), pp.726-729
Bio-Materials and Prototyping Applications in Medicine (2007) Bio-Materials and Prototyping Applications in Medicine, 227 p
Nonlinear thermodynamic model for reduced Cosserat continuum (2014) International Journal of Mathematical Models and Methods in Applied Sciences, V. 8, pp. 208-213
Online since: February 2013
Authors: Nan Li, Jian Wu, Bao Rong Fu, Xiu Juan Hui, Xia Li, Run Jie Zhang
s membrane, some soluble materials got out of Chlorella sp.'
Materials and Methods Chlorella sp.
Some soluble materials got out of Chlorella sp.'
Journal of Environmental Sciences 2010, 22(1):155–160.
Journal of Environmental Sciences 2010, 22(1) 155–160.
Materials and Methods Chlorella sp.
Some soluble materials got out of Chlorella sp.'
Journal of Environmental Sciences 2010, 22(1):155–160.
Journal of Environmental Sciences 2010, 22(1) 155–160.
Online since: October 2015
Authors: Muna D. Zaqsaw, Osama E. Mohsen, Qassem I. Mohaidat, Sami H. Mahmood, Ahmad Awadallah, Ibrahim Bsoul, Mufeed Awawdeh
Morkoç, Microwave ferrites, part 1: fundamental properties, Journal of Materials Science: Materials in Electronics 20 (9) (2009) 789-834
Morkoç, Microwave ferrites, part 2: passive components and electrical tuning, Journal of Materials Science: Materials in Electronics 20 (10) (2009) 911-952
Sombra, Magnetic and dielectric properties of the M-type barium strontium hexaferrite (BaxSr1−xFe12O19) in the RF and microwave (MW) frequency range, Journal of Materials Science: Materials in Electronics 20 (5) (2009) 408-417
Bate, Magnetic recording materials since 1975, Journal of Magnetism and Magnetic materials 100 (1) (1991) 413-424
Ponton, Magnetic properties of hydrothermally synthesized strontium hexaferrite as a function of synthesis conditions, Journal of materials science 30 (6) (1995) 1429-1433
Morkoç, Microwave ferrites, part 2: passive components and electrical tuning, Journal of Materials Science: Materials in Electronics 20 (10) (2009) 911-952
Sombra, Magnetic and dielectric properties of the M-type barium strontium hexaferrite (BaxSr1−xFe12O19) in the RF and microwave (MW) frequency range, Journal of Materials Science: Materials in Electronics 20 (5) (2009) 408-417
Bate, Magnetic recording materials since 1975, Journal of Magnetism and Magnetic materials 100 (1) (1991) 413-424
Ponton, Magnetic properties of hydrothermally synthesized strontium hexaferrite as a function of synthesis conditions, Journal of materials science 30 (6) (1995) 1429-1433
Online since: August 2014
Authors: Iveta Glodová, Jozef Bocko
Many materials show elastic-plastic behaviour, which means that the material shows elastic behaviour to a certain stress limit, which is noted as the yield strength.
Hyperelasticity provides “tools” for modelling the deformation behaviour of such materials [3].
Dependence on is important for materials, which have different plasticity limit in strength and pressure.
Balcar, Progressive Technologies Metal Forming Materials, VUT Brno, 2010
Daehn and research group, Resources on Electromagnetic and High Velocity Forming, Columbus, OH, Department of materials science and engineering, 2003.
Hyperelasticity provides “tools” for modelling the deformation behaviour of such materials [3].
Dependence on is important for materials, which have different plasticity limit in strength and pressure.
Balcar, Progressive Technologies Metal Forming Materials, VUT Brno, 2010
Daehn and research group, Resources on Electromagnetic and High Velocity Forming, Columbus, OH, Department of materials science and engineering, 2003.
Online since: September 2011
Authors: Bo Zhang, Xue Ying Yang, Yuan Mei Li, Wen Tao Dong
Acknowledgements
This research was financially supported by A Project of Shandong Province Higher Educational Science and Technology Program (J10LE53),Independent Innovation Foundation of Shandong University, IIFSDU (2009GN046), National Natural Science Foundation of China (40872203) , National Natural Science Foundation of China (50979052).
Journal of Gansu University of Technology, 2001,27(1):101-105
Journal of Tongji University, 2003,31(4):404-407
Concrete Filled Steel Tube structure: Theory and Practice[M].Beijing: Science Press,2004,16-393
Journal of Southeast University , 2005,35(3):433-437
Journal of Gansu University of Technology, 2001,27(1):101-105
Journal of Tongji University, 2003,31(4):404-407
Concrete Filled Steel Tube structure: Theory and Practice[M].Beijing: Science Press,2004,16-393
Journal of Southeast University , 2005,35(3):433-437
Online since: January 2010
Authors: Tong Jiang Peng, Hong Juan Sun, Jin Mei Sun, Hai Feng Liu, Ying Liu
Synthesis and Electrical Conductivity Measurement of Polyaniline/
Vermiculite Nanocomposites
Hongjuan Sun
1, 2, a,
*
, Ying Liu
1, b
, Tongjiang Peng
2, c,
Haifeng Liu2, d and Jinmei Sun2,e
1
College of Materials Science and Engineering, Sichuan University, Chengdu 610065, P.R.China
2
Institution of Mineral Material & Application, Southwest University of Science & Technology,
Mianyang 621010, P.R.China
a
sunhongjuan@swust.edu.cn, bliuyin@126.com, ctjpeng@swust.edu.cn, d
liuhaifeng@swust.edu.cn,
e
sunjinmei_1982@yahoo.com.cn
Keywords: nanocomposites, vermiculite, polyaniline, electric conductivity
Abstract.
The polyaniline/vermiculite nanocomposites materials were prepared via in situ polymerization of the aniline monomers in the interlayer space of vermiculite.
The as-synthesized polyaniline/vermiculite nanocomposite materials were characterized by X-ray diffraction analysis, infrared spectroscopy, and electrical conductivity measurement.
Castro Luna: Journal of Colloid and Interface Science, Vol. 352 (2008), p. 414
[10] Daofu Liu, Xusheng Du and Yuezhong Meng: Materials Letters, Vol. 15 (2006), p. 1847
The polyaniline/vermiculite nanocomposites materials were prepared via in situ polymerization of the aniline monomers in the interlayer space of vermiculite.
The as-synthesized polyaniline/vermiculite nanocomposite materials were characterized by X-ray diffraction analysis, infrared spectroscopy, and electrical conductivity measurement.
Castro Luna: Journal of Colloid and Interface Science, Vol. 352 (2008), p. 414
[10] Daofu Liu, Xusheng Du and Yuezhong Meng: Materials Letters, Vol. 15 (2006), p. 1847
Online since: May 2011
Authors: Shi Wu Gao, Fu Sheng Hao, Ke Liang Ren
The simulation actually provides some guidance for synthesis of metal composite materials.
Introduction Metal matrix ceramic composite material is a potential thermal structural materials for over decades, it can not only overcome the brittle fracture defects, improve the fracture toughness of ceramic materials, but also maintain high temperature, low expansion, high specific strength, high specific modulus, etc, have good resistance to abrasion and chemical resistance [1].
The simulation actually provides some guidance for synthesis of metal composite materials.
[4] M.1.Peeh-Canul, M M.Makhlouf: Journal of Materials Synthesisand Proeessing Vol.8 (2000), p.35-52
[6] Xiangqian Kong: Finite element method in heat transfer application (Science Press, Beijing 1998), in Chinese.
Introduction Metal matrix ceramic composite material is a potential thermal structural materials for over decades, it can not only overcome the brittle fracture defects, improve the fracture toughness of ceramic materials, but also maintain high temperature, low expansion, high specific strength, high specific modulus, etc, have good resistance to abrasion and chemical resistance [1].
The simulation actually provides some guidance for synthesis of metal composite materials.
[4] M.1.Peeh-Canul, M M.Makhlouf: Journal of Materials Synthesisand Proeessing Vol.8 (2000), p.35-52
[6] Xiangqian Kong: Finite element method in heat transfer application (Science Press, Beijing 1998), in Chinese.
Online since: November 2012
Authors: Antanas Ciuplys, Valdas Kvedaras
Terentjev, Fatigue of Metallic Materials, Nauka, Moskva, 2002.
Schijve, Fatigue of Structures and materials in the 20th century and the state of the art, International Journal of Fatigue 25 (2003) 679-702
Verreman, Fatigue strength improvement of a 4140 steel by gas nitriding: influence of notch severity, Materials Science and Engineering A 435 (2006) 460-467
Pokluda, Quantitative fractography in bending-torsion fatigue, Materials Science and Engineering A 462 (2007) 359-467
Kvedaras, Increasing of carbon steel durability by surface hardening, Materials Science (Medziagotyra) 16 (2010) 24-28
Schijve, Fatigue of Structures and materials in the 20th century and the state of the art, International Journal of Fatigue 25 (2003) 679-702
Verreman, Fatigue strength improvement of a 4140 steel by gas nitriding: influence of notch severity, Materials Science and Engineering A 435 (2006) 460-467
Pokluda, Quantitative fractography in bending-torsion fatigue, Materials Science and Engineering A 462 (2007) 359-467
Kvedaras, Increasing of carbon steel durability by surface hardening, Materials Science (Medziagotyra) 16 (2010) 24-28
Online since: November 2011
Authors: Ming Xie, Shan Suo Zheng
The concrete materials and damage are defined as isotropic in isotropic elasticity damage model, whose damage index is defined as a scalar.
Journal of Hohai University (Natural Sciences), 1989, (3): 40 - 47
Anisotropic Damage modeling for Brittle elastic materials [C].
The Continuous Damage Theory of Brittle Materials [C].
Journal of Applied Mechanics, ASME, 1981, 48: 809 - 815.
Journal of Hohai University (Natural Sciences), 1989, (3): 40 - 47
Anisotropic Damage modeling for Brittle elastic materials [C].
The Continuous Damage Theory of Brittle Materials [C].
Journal of Applied Mechanics, ASME, 1981, 48: 809 - 815.
Online since: April 2022
Authors: Michael Bodunrin, Lesego M. Mohlala, Desmond Klenam, Josias van der Merwe, Olusola Akinbami
Vincent, Materials Science and Engineering: A 375 (2004) 213–218
Chiba, Materials Science and Engineering: A 759 (2019) 380–390
Mourad, Advances in Materials Science and Engineering 2019 (2019) e2157592
Oke, Journal of Materials Research and Technology 5 (2016) 384–393
Machaka, Computational Materials Science 188 (2021) 110244
Chiba, Materials Science and Engineering: A 759 (2019) 380–390
Mourad, Advances in Materials Science and Engineering 2019 (2019) e2157592
Oke, Journal of Materials Research and Technology 5 (2016) 384–393
Machaka, Computational Materials Science 188 (2021) 110244