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Online since: October 2008
Authors: Jin Sheng Liang, Na Wang, Yan Ding, Fei Wang, Qing Guo Tang
Preparation and Properties of Thermal Insulation Putty for
Exterior Wall Containing Sepiolite Composite Materials
WANG Fei a
, LIANG Jinsheng﹡b , TANG Qingguoc, DING Yan, Wang Na
Institute of Power Source & Ecomaterials Science, Hebei University of Technology
300130 Tianjin, China
a
wangfei36777@163.com,﹡b liangjinsheng@hebut.edu.cn, cqingguo_tang@163.com
Keywords: composite materials; sepiolite; dodecanol; physical adsorption; putty for exterior wall
Abstract: The composite materials for self-operating temperature were prepared by sepiolite and
dodecanol as materials.
Apply Clay Science, 2002, 20(6): 273- 282
Apply Clay Science, 1999, 15(3-4): 367-380
Microporous Materials, 1995, 5(3): 135-142
International Journal of Environmental Analytical Chemistry, 2004, 84(1-3): 133-141
Apply Clay Science, 2002, 20(6): 273- 282
Apply Clay Science, 1999, 15(3-4): 367-380
Microporous Materials, 1995, 5(3): 135-142
International Journal of Environmental Analytical Chemistry, 2004, 84(1-3): 133-141
Online since: March 2006
Authors: Q. Jin, X.Z. Cui, Q.S. Shang, Zhan Yong Yao
The material that meets Mohr-Coulomb yield criterion and normal plastic flow rule is so-called
Coulomb material.
For Coulomb material, Chen W.
When 0→φ , Coulomb material will tend to Tresca material, ∞→φcotc and 0→Vε& .
International Journal of Rock Mechanics and Mining Sciences, Vol. 38 (2001), p. 369~378 [2] Z.
International Journal of Rock Mechanics and Mining Sciences, Vol. 38 (2001), p. 379~397 [3] J.
For Coulomb material, Chen W.
When 0→φ , Coulomb material will tend to Tresca material, ∞→φcotc and 0→Vε& .
International Journal of Rock Mechanics and Mining Sciences, Vol. 38 (2001), p. 369~378 [2] Z.
International Journal of Rock Mechanics and Mining Sciences, Vol. 38 (2001), p. 379~397 [3] J.
Online since: July 2011
Authors: Yuan Qiang Tan, Sheng Qiang Jiang, Dong Min Yang, Yong Sheng, Jian Qiao Ye
Frieß, Computational Materials Science, 28 (2003) 1-15
Herrmann, Computational Materials Science, 28 (2003) 608-619
Tan, Computational Materials Science, 49 (2010) 253-259
Sheng, Computational Materials Science, 50 858-864
Takeda, Materials Science and Engineering: A, 480 (2008) 549-557.
Herrmann, Computational Materials Science, 28 (2003) 608-619
Tan, Computational Materials Science, 49 (2010) 253-259
Sheng, Computational Materials Science, 50 858-864
Takeda, Materials Science and Engineering: A, 480 (2008) 549-557.
Online since: June 2012
Authors: Bin Shi Xu, Shi Cheng Wei, Hao Liang Tian, Hui Tong, Yong Xiong Chen, Yi Liu
Journal of Materials Science and Engineering, 2009, 27(5): 696-700
[7] Du Juan, Wang Hongren, Du Min, Li Haitao.
Materials Chemistry and Physics, 2010, 119(1): 330-336 [15] Huili Hu, Ning Li, Jinning Cheng, Lijiao Chen.
Advanced Material Science and Technology, 2011(675-677): 1291-1294 [21] Liu Yi.
Journal of Materials Processing Technology, 2009, 209(8): 3830-3839 [23] Young-Seob Kim, Lae-Hyun Kim, Ji-Sang Park.
Materials Science and Engineering A, 2008, 480(1-2): 411-418 [26] Ding H.Z, Biermann H, Hartmann O.
Materials Chemistry and Physics, 2010, 119(1): 330-336 [15] Huili Hu, Ning Li, Jinning Cheng, Lijiao Chen.
Advanced Material Science and Technology, 2011(675-677): 1291-1294 [21] Liu Yi.
Journal of Materials Processing Technology, 2009, 209(8): 3830-3839 [23] Young-Seob Kim, Lae-Hyun Kim, Ji-Sang Park.
Materials Science and Engineering A, 2008, 480(1-2): 411-418 [26] Ding H.Z, Biermann H, Hartmann O.
Online since: September 2013
Authors: Shih Hung Tai, Ching I Lin, Chun Yao Hsu
References
[1] Hascalık, U.Caydas, A comparative study of surface integrity of Ti–6Al–4V alloy machined by EDM and AECG, Journal of Materials Processing Technology 190 (2007) 173-180
Yamazaki, Y.Akutsu, Afundamental study on Ti–6Al–4V’s thermal and electricalproperties and their relation to EDM productivity, Journal of materials processing technology 202 (2008) 583-589
Cakır, Examination of machining parameters on surfaceroughness in EDM of tool steel, Journal of Materials Processing Technology 191 (2007) 141-144
Tarng, Optimization of turning operations with multiple performance characteristics, Journal of Materials Processing Technology 95 (1999) 90-96
Chang, Optimization of the WEDM process of particle-reinforced material with multiple performance characteristics using grey relational analysis, Journal of Materials Processing Technology 180 (2006) 96-101
Yamazaki, Y.Akutsu, Afundamental study on Ti–6Al–4V’s thermal and electricalproperties and their relation to EDM productivity, Journal of materials processing technology 202 (2008) 583-589
Cakır, Examination of machining parameters on surfaceroughness in EDM of tool steel, Journal of Materials Processing Technology 191 (2007) 141-144
Tarng, Optimization of turning operations with multiple performance characteristics, Journal of Materials Processing Technology 95 (1999) 90-96
Chang, Optimization of the WEDM process of particle-reinforced material with multiple performance characteristics using grey relational analysis, Journal of Materials Processing Technology 180 (2006) 96-101
Online since: November 2012
Authors: Toshiro Sakae, Kotaro Sekiya, Takashi Kaneda, Masaaki Suemitsu, Yasushi Hayakawa, Shintaro Mori
Also, applications of X-ray are based on the strong interactions with materials including transmission, absorption, diffraction, reflection, scattering, and emission.
Actually, the amazing effects of X-ray phase-contrast imaging with LEBRA-PXR has been reported.X-ray phase-contrast imaging is not due to absorption by materials but is based on the phase difference of materials as in phase-difference microscopy.
Materials and Methods: Subject.
Mori et al, Application of LEBRA-PXR to the diffraction analysis of minerals, Journal of Mineralogical and Petrological Sciences 101 (2006) 10-13
Kuwada, Y Hayakawa, K Nogami et al, Phase Contrast Imaging of Biological Materials using LEBRA‐PXR, AIP Conf.
Actually, the amazing effects of X-ray phase-contrast imaging with LEBRA-PXR has been reported.X-ray phase-contrast imaging is not due to absorption by materials but is based on the phase difference of materials as in phase-difference microscopy.
Materials and Methods: Subject.
Mori et al, Application of LEBRA-PXR to the diffraction analysis of minerals, Journal of Mineralogical and Petrological Sciences 101 (2006) 10-13
Kuwada, Y Hayakawa, K Nogami et al, Phase Contrast Imaging of Biological Materials using LEBRA‐PXR, AIP Conf.
Online since: October 2018
Authors: R.A. Shishkin, A.P. Zemlyanskaya, A.R. Beketov
Experimental
Materials and sample preparation.
Zhang, Characterization of nanostructured thermal interface materials - A review, International Journal of Thermal Sciences 62 (2012) 2 – 11
Webb, Performance and testing of thermal interface materials, Microelectronics Journal 34 (2003) 215-222
Mantyla, Modelling of thermal conductivity of porous materials: application to thick thermal barrier coatings, Journal of the European Ceramic Society 24 (2004) 2657-2667
Ai, New theoretical equation for effective thermal conductivity of two-phase composite materials, Materials Science and Technology 5 (28) (2012) 620-626
Zhang, Characterization of nanostructured thermal interface materials - A review, International Journal of Thermal Sciences 62 (2012) 2 – 11
Webb, Performance and testing of thermal interface materials, Microelectronics Journal 34 (2003) 215-222
Mantyla, Modelling of thermal conductivity of porous materials: application to thick thermal barrier coatings, Journal of the European Ceramic Society 24 (2004) 2657-2667
Ai, New theoretical equation for effective thermal conductivity of two-phase composite materials, Materials Science and Technology 5 (28) (2012) 620-626
Online since: May 2011
Authors: Chun Feng Jia, Lin Jie Jiang, Shuang Bei Li, Rong Qin
Introduction
Functionally graded materials (FGMs) are new type composite materials with the continuous variation of the component.
Acknowledgments This work is supported by Guangxi Natural Science Fund Projects (2010GXNSFA013111)and Innovation Project of Guangxi Graduate Education (105931003066).
References [1] Efraim E, Eisenberger M: Journal of Sound and Vibration.
Vol.310 (2008), p. 966 [7] Allahverdizadeh A, Naei MH, Bahrami MN: International Journal of Mechanical Sciences.
Vol. 50(2008), p. 445 [8] Zhiyuan Cao, Huaning Wang: Journal Of Functional Materials.
Acknowledgments This work is supported by Guangxi Natural Science Fund Projects (2010GXNSFA013111)and Innovation Project of Guangxi Graduate Education (105931003066).
References [1] Efraim E, Eisenberger M: Journal of Sound and Vibration.
Vol.310 (2008), p. 966 [7] Allahverdizadeh A, Naei MH, Bahrami MN: International Journal of Mechanical Sciences.
Vol. 50(2008), p. 445 [8] Zhiyuan Cao, Huaning Wang: Journal Of Functional Materials.
Online since: July 2014
Authors: Wei Yang, Jie Geng, Xi Guang Cui, Sheng Liang Zhao, Xu Yang Tong
Specimen material.
This shows that component in the failure stage, synergistic effect of grouting materials with steel is better than concrete, from point of material , grouting material can replace the concrete to work.
The bearing capacity and stiffness of reinforced grouting material specimen are close to reinforced concrete specimen (5%), Grouting material replace the concrete to work is reliable.
Sichuan building science.2010,30(4):188~190.
China Building Science Core Journals [J],2004,8.
This shows that component in the failure stage, synergistic effect of grouting materials with steel is better than concrete, from point of material , grouting material can replace the concrete to work.
The bearing capacity and stiffness of reinforced grouting material specimen are close to reinforced concrete specimen (5%), Grouting material replace the concrete to work is reliable.
Sichuan building science.2010,30(4):188~190.
China Building Science Core Journals [J],2004,8.
Online since: August 2013
Authors: Xiao Yan Lin, Xue Gang Luo, Chao Le Yun
Mechanical properties of a novel kind of biomass cellular material prepared from forage grass
Chaole Yun1,2,a, Xuegang Luo1,2,b,*, Xiaoyan Lin2,c
1 School of Life Science and Engineering, Southwest University of Science and Technology, Mianyang 621010, China
2 Engineering Research Center of Biomass Materials, Ministry of Education, China
a yunchaole1987@163.com, b lxg@swust.edu.cn, c lxy20100205@163.com
Keywords: Forage grass; Seed germination experiment; Mechanical properties; Biomass cellular material;
Abstract: In this paper, a kind of new biomass cellular material was prepared by the growth of forage grass such as annual ryegrass, tall fescue, and trefoil in the molding container.
Materials with a cellular structure are widespread in nature and include wood, cork, plant parenchyma and trabecular bone.
Experimental materials and methods Materials.
Gibson: Journal of Biomechanics.
Vol. 38 (2005), p. 377-399 [4] Zuodong Yin, Zelin Pan, Cai Wang, et: Polymer materials science and Engineering.
Materials with a cellular structure are widespread in nature and include wood, cork, plant parenchyma and trabecular bone.
Experimental materials and methods Materials.
Gibson: Journal of Biomechanics.
Vol. 38 (2005), p. 377-399 [4] Zuodong Yin, Zelin Pan, Cai Wang, et: Polymer materials science and Engineering.