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Online since: June 2019
Authors: Yi Qiang Wu, Xin Li Zhang, Ying Feng Zuo, Jian Wang, Jun Hua Xiao, Ming Liu, Hong Jun Chen
Materials and Methods
Materials.
China Building Materials.
Journal of materials science, 2011, 46(20): 6726
Journal of Wuhan University of Technology--Materials Science Edition, 2006, 21(1): 138-142
Journal of Building Materials, 2018,21(03):394-401.
China Building Materials.
Journal of materials science, 2011, 46(20): 6726
Journal of Wuhan University of Technology--Materials Science Edition, 2006, 21(1): 138-142
Journal of Building Materials, 2018,21(03):394-401.
Online since: October 2015
Authors: Valentin Vlăduţ, Ilie Dumitru, Cristian Sorică, S. Biris, M. Duţu, D. Păunescu, Iulia Găgeanu, Aurel Danciu, N. Herişanu, Ion Grigore, Iulian Voicea
The Influence Of The Working Regime Of Oscillations Produced By An Electrovibrator On The Sorting Of Materials
V.
Thus, were analyzed different methods for processing and fraction analyzing of materials in the food industry [3], gravity separation methods depending on the sizes of materials [9], but also the technique and analysis of the process of separation and cleaning materials [7].
Andrejko, The technique and analysis of the process of separation and cleaning grain materials, Journal of Food Engineering 109 (2012), pp. 603–608
Journal of Food Engineering 26 (2): 1995, pp. 131–146
Applied Clay Science 48 (4): 2010, pp. 612–614
Thus, were analyzed different methods for processing and fraction analyzing of materials in the food industry [3], gravity separation methods depending on the sizes of materials [9], but also the technique and analysis of the process of separation and cleaning materials [7].
Andrejko, The technique and analysis of the process of separation and cleaning grain materials, Journal of Food Engineering 109 (2012), pp. 603–608
Journal of Food Engineering 26 (2): 1995, pp. 131–146
Applied Clay Science 48 (4): 2010, pp. 612–614
Online since: February 2013
Authors: Xiao Bin Wang, Zhou Su, Qing Jun Wang
This article through to the emergency materials distribution of risk analysis, understanding of emergency materials distribution risk comes from where, and its risk control.
Natural Science Journal, 2004
The risk on emergency materials logistics system for large-scale disaster.
Science & Technology Review, 2005
Chongqing University Journal (Science Session), 2004, p. 27(3)
Natural Science Journal, 2004
The risk on emergency materials logistics system for large-scale disaster.
Science & Technology Review, 2005
Chongqing University Journal (Science Session), 2004, p. 27(3)
Online since: July 2014
Authors: Swamy R. Narayana, Prabhu K. Narayan
The use of thermal interface materials reduced the contact resistance between the hot source and cold sink materials.
The factors considered in ANOVA are materials in contact, load and interface materials.
Seetharaamu: ASEAN Journal of Science and Technology for Development ,18 (2001) p. 15
Wu, Experimental Thermal and Fluid Science, 25 (2001) p. 349
Dusel: Applied Surface Science, 246 (2004) p. 290.
The factors considered in ANOVA are materials in contact, load and interface materials.
Seetharaamu: ASEAN Journal of Science and Technology for Development ,18 (2001) p. 15
Wu, Experimental Thermal and Fluid Science, 25 (2001) p. 349
Dusel: Applied Surface Science, 246 (2004) p. 290.
Online since: June 2006
Authors: Jie Cai Han, Bao Lin Wang
awangbl2001@hotmail.com, bhanjc@hit.edu.cn
Keywords: Functionally graded materials, Cracks, Fracture mechanics, Dynamic fracture
mechanics
Abstract.
Introduction In non-homogeneous materials such as functionally graded materials, the response has a strong dependence on the spatial variation of thermal and mechanical properties [1].
Conclusions A theoretical model is developed for the interactions of an array of cracks periodically located in functionally graded materials.
Miyamoto et al.: Functionally Graded Materials: Design, Processing and Applications.
Erdogan: International Journal of Engineering Science Vol.26 (1988), p. 559
Introduction In non-homogeneous materials such as functionally graded materials, the response has a strong dependence on the spatial variation of thermal and mechanical properties [1].
Conclusions A theoretical model is developed for the interactions of an array of cracks periodically located in functionally graded materials.
Miyamoto et al.: Functionally Graded Materials: Design, Processing and Applications.
Erdogan: International Journal of Engineering Science Vol.26 (1988), p. 559
Online since: January 2013
Authors: Xin Lin Xia, Ya Fen Han, Hai Dong Liu
A Modified Monte-Carlo Method (MMCM) in which phonon bundles take non-energy is developed to model the steady state phonon radiative transfer in nanoscale materials.
The results indicate that the developed method has a good accuracy in solving the phonon radiative transfer in nanoscale materials.
A square of side () geometry for silicon materials is considered.
Temperature distributions in square of geometry for silicon materials Figure 4.
Cha: Computational Materials Science.
The results indicate that the developed method has a good accuracy in solving the phonon radiative transfer in nanoscale materials.
A square of side () geometry for silicon materials is considered.
Temperature distributions in square of geometry for silicon materials Figure 4.
Cha: Computational Materials Science.
Online since: October 2014
Authors: Qi Zhao Wang, Na Dong, Yong Chun Tong, Bi Tao Su
Effect of the catalyst type on the morphology of PSB nanostructural materials.
Acknowledgements We thank the key laboratory of Eco-Environment Related Polymer Materials (Northwest Normal University), Ministry of Education of China, the Natural Science of Gansu Province (No. 1010RJZA184), and Natural Science Foundation of China (No.20963008).
Materials Research Bulletin, 40, 383-393 (2005)
Materials Research Bulletin, 39, 1569-1580 (2004)
Science, 298, 2176-2179 (2002)
Acknowledgements We thank the key laboratory of Eco-Environment Related Polymer Materials (Northwest Normal University), Ministry of Education of China, the Natural Science of Gansu Province (No. 1010RJZA184), and Natural Science Foundation of China (No.20963008).
Materials Research Bulletin, 40, 383-393 (2005)
Materials Research Bulletin, 39, 1569-1580 (2004)
Science, 298, 2176-2179 (2002)
Online since: December 2014
Authors: Hong Ling Liu, Wu Zhang, Xiao Liu, Xue Mei Li, Wen Zheng Cheng
Introduction
La1-xSrxMO3 nanoparticles have attracted increasing interest to material science due to their special magnetic and electrical properties [1-3].
In this process, high purity acetates of La(CH3COO)3. xH2O, Mn (CH3COO)2. 4H2O, and Sr(CH3COO)2 were used as starting materials.
Fig. 2 Representation of typical procedure applied for the bilayer OA coating on LSMO Surface functionalization with inorganic materials Core shell types of La1-xSrxMO3 nanoparticles have been investigated by several researchers, these nanoparticles have La1-xSrxMO3 core with an outer shell of inorganic materials.
References [1] Daengsakul S, Thomas C and Thomas I: Nanoscale research letters (2009) [2] Kačenka M, Kaman O and Kotek J: Journal of Materials Chemistry (2011) [3] Louguet S, Rousseau B and Epherre R: Polymer Chemistry (2012) [4] Zhang K and Holloway T: Journal of nanoscience and nanotechnology, (2010) [5] Manh D H, Phong P T and Nam P H : Physica B: Condensed Matter (2014) [6] Jadhav S V, Nikam D S and Khot V M: New Journal of Chemistry (2013) [7]Thorat N D, Patil R M and Khot V M : New Journal of Chemistry (2013) [8] Thorat N D and Khot V M: Journal of Physics D: Applied Physics, (2013) [9] Prasad N K and Hardel L: Journal of Magnetism and Magnetic Materials (2009) [10] Moradi J and Ghazi M E: Journal of Solid State Chemistry France, (2014) [11] Giri A, Makhal A and Ghosh B: Nanoscale (2010) [12] Thorat N D and Khot V M: Colloids and Surfaces B: Biointerfaces (2013) [13] Sun S, Wei C and Zhu Z: Chinese Physics B (2014) [14] Ren Q, Zhang Y and Chen Y: Journal of sol-gel science
and technology (2013) [15] Nguyen H N and Duong T M: Ieee Transactions On Magnetics (2014) [16] Rostam A and Salamati H: Journal of Magnetism and Magnetic Materials (2009) [17] Cheng Y L, Dai J M and Zhu X B : Nanoscale research letters (2009) [18] Pana O and Turcu R: Journal of Physics: Conference Series. (2009) [19] Eshraghi M and Kameli P: Journal of Materials Science Research (2014) [20] Thorat N D, Shinde K P and Pawar S H: Dalton Transactions (2012) [21] Epherre R, Duguet E and Mornet S : Journal of Materials Chemistry (2011) [22] Kaman O, Pollert E and Veverka P: Nanotechnology (2009)
In this process, high purity acetates of La(CH3COO)3. xH2O, Mn (CH3COO)2. 4H2O, and Sr(CH3COO)2 were used as starting materials.
Fig. 2 Representation of typical procedure applied for the bilayer OA coating on LSMO Surface functionalization with inorganic materials Core shell types of La1-xSrxMO3 nanoparticles have been investigated by several researchers, these nanoparticles have La1-xSrxMO3 core with an outer shell of inorganic materials.
References [1] Daengsakul S, Thomas C and Thomas I: Nanoscale research letters (2009) [2] Kačenka M, Kaman O and Kotek J: Journal of Materials Chemistry (2011) [3] Louguet S, Rousseau B and Epherre R: Polymer Chemistry (2012) [4] Zhang K and Holloway T: Journal of nanoscience and nanotechnology, (2010) [5] Manh D H, Phong P T and Nam P H : Physica B: Condensed Matter (2014) [6] Jadhav S V, Nikam D S and Khot V M: New Journal of Chemistry (2013) [7]Thorat N D, Patil R M and Khot V M : New Journal of Chemistry (2013) [8] Thorat N D and Khot V M: Journal of Physics D: Applied Physics, (2013) [9] Prasad N K and Hardel L: Journal of Magnetism and Magnetic Materials (2009) [10] Moradi J and Ghazi M E: Journal of Solid State Chemistry France, (2014) [11] Giri A, Makhal A and Ghosh B: Nanoscale (2010) [12] Thorat N D and Khot V M: Colloids and Surfaces B: Biointerfaces (2013) [13] Sun S, Wei C and Zhu Z: Chinese Physics B (2014) [14] Ren Q, Zhang Y and Chen Y: Journal of sol-gel science
and technology (2013) [15] Nguyen H N and Duong T M: Ieee Transactions On Magnetics (2014) [16] Rostam A and Salamati H: Journal of Magnetism and Magnetic Materials (2009) [17] Cheng Y L, Dai J M and Zhu X B : Nanoscale research letters (2009) [18] Pana O and Turcu R: Journal of Physics: Conference Series. (2009) [19] Eshraghi M and Kameli P: Journal of Materials Science Research (2014) [20] Thorat N D, Shinde K P and Pawar S H: Dalton Transactions (2012) [21] Epherre R, Duguet E and Mornet S : Journal of Materials Chemistry (2011) [22] Kaman O, Pollert E and Veverka P: Nanotechnology (2009)
Online since: July 2011
Authors: Jian Hua Du, Yan Zang, Xiao Ying Zhu
The copper matrix of both friction materials are continuous,which make the bond strength of the friction materials high.
Acknowledgements The work was financially supported by the National Natural Science Foundation of China (51001117).
Yin: Journal of Central South University (Science and Technology) Vol. 39 (2008), p. 517, in Chinese [3] Y.
Deng: Journal of Academy of Armored Force Engineering Vol. 23 (2009), p. 19, in Chinese [6] R.X.
Li: The Chinese Journal of Nonferrous Metals Vol. 18 (2008), p. 1453, in Chinese
Acknowledgements The work was financially supported by the National Natural Science Foundation of China (51001117).
Yin: Journal of Central South University (Science and Technology) Vol. 39 (2008), p. 517, in Chinese [3] Y.
Deng: Journal of Academy of Armored Force Engineering Vol. 23 (2009), p. 19, in Chinese [6] R.X.
Li: The Chinese Journal of Nonferrous Metals Vol. 18 (2008), p. 1453, in Chinese
Online since: September 2013
Authors: Ze Jiang Zhang, Li Jun Li, Feng Li
Furthermore, the test results of CONE have an important reference sense to the evaluation of materials, material design, and fire prevention [2].
Fire risk of the materials is determined to a variety of factors.
Fire risk of materials depends primarily on the toxicity of smoke.
It is consistent with risk of materials in the actual fire scene.
(In Chinese) [3] Xu Xiao-nan: China Safety Science Journal, Vol. 13 (2003), p 19.
Fire risk of the materials is determined to a variety of factors.
Fire risk of materials depends primarily on the toxicity of smoke.
It is consistent with risk of materials in the actual fire scene.
(In Chinese) [3] Xu Xiao-nan: China Safety Science Journal, Vol. 13 (2003), p 19.