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Online since: October 2007
Authors: Chul Jin Choi, Xin Fang Zhang, H. Huang, B. Lv, J.P. Sun, X.L. Dong, J.P. Lei
Dong1 and *C.J.Choi2
1
State Key Laboratory for Materials Modification by Laser, Ion and Electron Beams, and School of
Materials Science and Engineering, Dalian University of Technology (DUT),
Dalian, Liaoning, 116024, China
2
Korea Institute of Machinery and Materials, 66 Sangnam-Dong, Changwon,
Kyungnam 641-010, Korea
*E-mail address: dongxl@dlut.edu.cn (X.L.
As an inspiration, we found this kind of nanocapsules with a dielectric shell and a ferromagnetic core are very promising for new EM wave absorption materials.
Recent studies on carbon-containing materials, such as carbon nanotubes (CNTs) [5-6], carbon nanofibers (CNFs) [7], have sparked a new arena for developing effective microwave absorption/shielding materials since their excellent EM wave absorption properties.
Yang, Journal of Materials Science 33, 1915 (1998)
Choi, Journal of Physics D: Applied Physics,2007, submitted
As an inspiration, we found this kind of nanocapsules with a dielectric shell and a ferromagnetic core are very promising for new EM wave absorption materials.
Recent studies on carbon-containing materials, such as carbon nanotubes (CNTs) [5-6], carbon nanofibers (CNFs) [7], have sparked a new arena for developing effective microwave absorption/shielding materials since their excellent EM wave absorption properties.
Yang, Journal of Materials Science 33, 1915 (1998)
Choi, Journal of Physics D: Applied Physics,2007, submitted
Online since: August 2012
Authors: Wen Ming Zhang
The constructional quality judicatory authentication involves the significant interests between both parties of prosecution and the defense and the conflicts exist inevitably in the process of court hearing and evidencing over the verification of the information and documents, therefore the persons involving the judicatory authentication shall insist in the principles of science, rigors and objectiveness and fairness in their operation.
The hardening and cooling contractions of the materials of beams concrete are constrained by concrete framework columns and the constrained pulling stress are caused on the beams’ vertical cross section, while another pulling stress are on the beam bottom due to load action.
Chinese Journal of Forensic Sciences, 2011, No. 6: 78~80
[2] Lu Song, Case Report: Foundation Quality Evaluation of a Commercial Building Project, Chinese Journal of Forensic Sciences, No. 6: 81~82
The hardening and cooling contractions of the materials of beams concrete are constrained by concrete framework columns and the constrained pulling stress are caused on the beams’ vertical cross section, while another pulling stress are on the beam bottom due to load action.
Chinese Journal of Forensic Sciences, 2011, No. 6: 78~80
[2] Lu Song, Case Report: Foundation Quality Evaluation of a Commercial Building Project, Chinese Journal of Forensic Sciences, No. 6: 81~82
Online since: April 2005
Authors: A.L. Oliveira, Rui L. Reis, M.I. Santos, A.A. Pedro
Reis: Journal of Materials Science-Materials in Medicine
(2002), 1181-1188
[7] R.
Correia: Journal of Materials ScienceMaterials in Medicine (1997), 897-905 [8] A.
L.: Journal of Materials Science: Materials in Medicine (1999), 827 [9] T.
Reis: Journal of Materials Science: Materials in Medicine (2004), 533- 540 [11] R.
Cunha: Journal of Materials Science-Materials in Medicine (1995), 786- 792 [12] M.
Correia: Journal of Materials ScienceMaterials in Medicine (1997), 897-905 [8] A.
L.: Journal of Materials Science: Materials in Medicine (1999), 827 [9] T.
Reis: Journal of Materials Science: Materials in Medicine (2004), 533- 540 [11] R.
Cunha: Journal of Materials Science-Materials in Medicine (1995), 786- 792 [12] M.
Online since: March 2016
Authors: M.A. Khan, Asma Ishaque, Rizwana Mofeed, Tariq Iqbal, Hasan Mahmood, Raja Naveed Ahmed, Ayaz Arif Khan, Mahboobullah Mahboobullah
Zhang M., Xu X., Zhang M., Materials Letters; 2008;62:385-388
[16].
Song X., Yu H., Sun S., Journal of Colloid and Interface Science; 2005;289:588-591 [21].
A. and Longo E., Materials Research Bulletin; 2008;43:771-775 [22].
Xu X., Zhang M., Feng J. and Zhang M., Materials Letters; 2008;62:2787-2790 [23].
G., Fundamentals of Materials Science and Engineering, John Wiley & Sons, third edition, 2007 [25].
Song X., Yu H., Sun S., Journal of Colloid and Interface Science; 2005;289:588-591 [21].
A. and Longo E., Materials Research Bulletin; 2008;43:771-775 [22].
Xu X., Zhang M., Feng J. and Zhang M., Materials Letters; 2008;62:2787-2790 [23].
G., Fundamentals of Materials Science and Engineering, John Wiley & Sons, third edition, 2007 [25].
Online since: September 2012
Authors: Yawar Jamil Adeel, Ahsan Irshad Muhammad, Azmat Zeeshan
Introduction
Hyperelastic materials such as rubber are widely used in industrial and household applications.
A number of constitutive models are available for hyperelastic materials in different FEA packages.
Chiappini, D.Amodio, “Characterisation of hyperelastic rubber-like materials by biaxial and uniaxial stretching test based on optical methods
Marco, “Digital Image Correlation used to Analyze the Multiaxial Behavior of Rubber-like Materials”, European Journal of Mechanics [3] Zeeshan Siddiqui,Fawad Tariq,Nausheen Naaz,”Application of a two step digital Image Correlation algorithm in Determining poisson's ratio of metals and composites”, 62nd International Astronautical Congress , Cape Town , South Africa, 3-7 Oct,2011
Sahari A “Review of Constitutive Models for Rubber-Like Materials”, American Journal of Engineering and Applied Sciences 3 (1): 232-239, 2010
A number of constitutive models are available for hyperelastic materials in different FEA packages.
Chiappini, D.Amodio, “Characterisation of hyperelastic rubber-like materials by biaxial and uniaxial stretching test based on optical methods
Marco, “Digital Image Correlation used to Analyze the Multiaxial Behavior of Rubber-like Materials”, European Journal of Mechanics [3] Zeeshan Siddiqui,Fawad Tariq,Nausheen Naaz,”Application of a two step digital Image Correlation algorithm in Determining poisson's ratio of metals and composites”, 62nd International Astronautical Congress , Cape Town , South Africa, 3-7 Oct,2011
Sahari A “Review of Constitutive Models for Rubber-Like Materials”, American Journal of Engineering and Applied Sciences 3 (1): 232-239, 2010
Online since: September 2011
Authors: Liu Ru Zhou
Journal of Materials Processing Technology, 2001, 1-3(111): 150-154
[3] Park, J.J;Kim, Y.H.
Journal of Materials Processing Technology, 2003, (140): 447-453 [4]Ambrogio G, De Napoli.
Journal of Materials Processing Technology, 2005. 162,156-162 [5]CUI Zhen, GAO Lin, LU Qi-jian.
Journal of Materials Processing Technology, 187–188 (2007) 94-98 [7]J.R.
Journal of Mechanical Science and Technology 25 (1) (2011) 177-182 [11] M.
Journal of Materials Processing Technology, 2003, (140): 447-453 [4]Ambrogio G, De Napoli.
Journal of Materials Processing Technology, 2005. 162,156-162 [5]CUI Zhen, GAO Lin, LU Qi-jian.
Journal of Materials Processing Technology, 187–188 (2007) 94-98 [7]J.R.
Journal of Mechanical Science and Technology 25 (1) (2011) 177-182 [11] M.
Online since: May 2012
Authors: Xing Feng Wang, Xue Ping Chang, Jun Liu
The carbon-fiber wrapped composite material is simulated as transversely isotropic material by means of an equivalent modulus method.
The equivalent modulus of CFRC material CFRC material can be regarded as transversely isotropic material.
The material parameters of fiber and 914epoxy material are listed as table 1.
Lockwood: Review of FRP Composite Materials for Pipeline Repair [C].
Journal of Materials Science & Engineering, 28(1): 85-89 (2010).
The equivalent modulus of CFRC material CFRC material can be regarded as transversely isotropic material.
The material parameters of fiber and 914epoxy material are listed as table 1.
Lockwood: Review of FRP Composite Materials for Pipeline Repair [C].
Journal of Materials Science & Engineering, 28(1): 85-89 (2010).
Online since: December 2012
Authors: Hu Ping An, Rui Feng Wang, Zhi Yuan Rui, Zhi Mei Zhang
Deformation of continuous chip for scissile metal materials can be analyzed and controlled by analogous methods that are employed at normal cutting speed.
In HSM the machined materials experience intense extrusion and friction, then chips form due to rapid shearing slippage and plastic deformation, in which generate magnitude heat on account of work wasted in deformation and friction and cause high temperature.
International Journal of Machine Tools & Manufacture, 2008 (48): 1486-1494 [3] G.
International Journal of Machine Tools & Manufacture, 2008 (48 ): 275-288 [5] Zhang S, Guo Y.B..
CIRP Journal of Manufacturing Science and Technology, 2008 (1): 81-85
In HSM the machined materials experience intense extrusion and friction, then chips form due to rapid shearing slippage and plastic deformation, in which generate magnitude heat on account of work wasted in deformation and friction and cause high temperature.
International Journal of Machine Tools & Manufacture, 2008 (48): 1486-1494 [3] G.
International Journal of Machine Tools & Manufacture, 2008 (48 ): 275-288 [5] Zhang S, Guo Y.B..
CIRP Journal of Manufacturing Science and Technology, 2008 (1): 81-85
Online since: March 2015
Authors: Kai Yan Lin, Jie Chen, Jun Hui Wu, Hui Ping Si, Zhen Dong Wu
To produce the biomass charcoal of high quality [18], carbonization device must have the following features: (1) temperature can be controlled, furnace body itself has block heating and slow cooling effect; (2) reaction under the condition of the anaerobic or anoxia, the whole sealing condition of reactor should be better;(3) low requirements on raw materials’ species and size, no pretreatment, strong adaptability to raw materials;(4) the volume of reaction equipment is relatively small, easy to manufacture, suitable for small-scale production
Journal of agricultural engineering. 2010(7).
Journal of combustion science and technology, 2007, 13(1).
Journal of Zhejiang university, 2005, 39 : 5.
Hefei: University of science and technology of China press, 2006144-166.
Journal of agricultural engineering. 2010(7).
Journal of combustion science and technology, 2007, 13(1).
Journal of Zhejiang university, 2005, 39 : 5.
Hefei: University of science and technology of China press, 2006144-166.
Online since: June 2018
Authors: Georgios V. Seretis, Aikaterini K. Polyzou, Christopher G. Provatidis, Dimitrios E. Manolakos
Experimental
Materials and specimens.
Tensile properties, Materials Science and Engineering A 367 (2004) 96-110
Rettenmayr, Effect of cooling rate on the solidification behaviour of Al–Fe–Si alloys, Materials Science and Engineering A 283 (2000) 218–224
Kaufman, The effects of Mn additions on the microstructure and mechanical properties of Al–Si–Cu casting alloys, Materials Science and Engineering A 488 (2008) 496–504
Kattamis, Tribological properties of SiCp-reinforced Al-4.5%Cu-1.5%Mg alloy composites, Materials Science and Engineering A 163 (1993) 107-113
Tensile properties, Materials Science and Engineering A 367 (2004) 96-110
Rettenmayr, Effect of cooling rate on the solidification behaviour of Al–Fe–Si alloys, Materials Science and Engineering A 283 (2000) 218–224
Kaufman, The effects of Mn additions on the microstructure and mechanical properties of Al–Si–Cu casting alloys, Materials Science and Engineering A 488 (2008) 496–504
Kattamis, Tribological properties of SiCp-reinforced Al-4.5%Cu-1.5%Mg alloy composites, Materials Science and Engineering A 163 (1993) 107-113