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Online since: November 2013
Authors: Ali Salehabadi, Mohamad Abu Bakar
Clay is one of the naturally occurring materials which can impart many thermal and mechanical properties into the final products.
Experimental Materials and Method.
Abu Bakar, Epoxidized natural rubber-organomodified montmorillonite nanohybrids; interaction and thermal decomposition, Materials Science Forum. 756 (2013) 119–126
Pharr, An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research. 7 (1982) 1564–1580
He, Nanoindentation and morphological studies of epoxy nanocomposites, Macromolecular Materials and Engineering. 291 (2006) 1358–1366
Experimental Materials and Method.
Abu Bakar, Epoxidized natural rubber-organomodified montmorillonite nanohybrids; interaction and thermal decomposition, Materials Science Forum. 756 (2013) 119–126
Pharr, An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research. 7 (1982) 1564–1580
He, Nanoindentation and morphological studies of epoxy nanocomposites, Macromolecular Materials and Engineering. 291 (2006) 1358–1366
Online since: September 2008
Authors: Peter Sommer-Larsen, Kim Hansen, Mohamed Benslimane
Compared to other smart materials and structures, the
DESCE is second to only piezoelectric ceramics in this respect.
Basic materials properties as well as performance under space environment - vacuum, temperature, and radiation stability - will be discussed.
Their performance in terms of actuation strain vastly supersedes other EAP technologies and smart materials in general.
Hence metals are attractive as electrode materials for actuators.
of Vacuum Science and Technology A: Vacuum, Surfaces and Films, 22, 1723-1725 (2004) [9] Lacour,S.P., Jones,J., Wagner,S., Li,T., and Suo,Z., International Journal of High Speed Electronics and Systems, 16, 397-407 (2006) [10] Lacour,S.P., Wagner,S., Prahlad,H., and Pelrine,R., Journal of Non-Crystalline Solids, 338340, 736-739 (2004) [11] Lacour,S.P., Chan,D., Wagner,S., Li,T., and Suo,Z., Applied Physics Letters, 88 (2006) [12] Lacour,S.P., Prahlad,H., Pelrine,R., and Wagner,S., Sensors and Actuators, A: Physical, 111, 288-292 (2004) [13] Lacour,S.P., Wagner,S., Huang,Z., and Suo,Z., Applied Physics Letters, 82, 2404-2406 (2003) [14] Li,T., Suo,Z., Lacour,S.P., and Wagner,S., Journal of Materials Research, 20, 3274-3277 (2005) [15] Li,T., Huang,Z., Suo,Z., Lacour,S.P., and Wagner,S., Applied Physics Letters, 85, 3435-3437 (2004) [16] Watanabe,M., Polymers for Advanced Technologies, 16, 744-748 (2005) [17] Watanabe,M., Journal of Polymer Science, Part B: Polymer
Basic materials properties as well as performance under space environment - vacuum, temperature, and radiation stability - will be discussed.
Their performance in terms of actuation strain vastly supersedes other EAP technologies and smart materials in general.
Hence metals are attractive as electrode materials for actuators.
of Vacuum Science and Technology A: Vacuum, Surfaces and Films, 22, 1723-1725 (2004) [9] Lacour,S.P., Jones,J., Wagner,S., Li,T., and Suo,Z., International Journal of High Speed Electronics and Systems, 16, 397-407 (2006) [10] Lacour,S.P., Wagner,S., Prahlad,H., and Pelrine,R., Journal of Non-Crystalline Solids, 338340, 736-739 (2004) [11] Lacour,S.P., Chan,D., Wagner,S., Li,T., and Suo,Z., Applied Physics Letters, 88 (2006) [12] Lacour,S.P., Prahlad,H., Pelrine,R., and Wagner,S., Sensors and Actuators, A: Physical, 111, 288-292 (2004) [13] Lacour,S.P., Wagner,S., Huang,Z., and Suo,Z., Applied Physics Letters, 82, 2404-2406 (2003) [14] Li,T., Suo,Z., Lacour,S.P., and Wagner,S., Journal of Materials Research, 20, 3274-3277 (2005) [15] Li,T., Huang,Z., Suo,Z., Lacour,S.P., and Wagner,S., Applied Physics Letters, 85, 3435-3437 (2004) [16] Watanabe,M., Polymers for Advanced Technologies, 16, 744-748 (2005) [17] Watanabe,M., Journal of Polymer Science, Part B: Polymer
Online since: October 2012
Authors: Muhammad Riza, Erry Yulian Triblas Adesta, Muataz H.F. Al Hazza, M.Y. Suprianto
International Journal of Engineering and Applied Sciences 6:3 2010
[2] M.H AlHazza and Adesta E.
Advanced Materials Research. 264-265 (2011) 1003-1008
Journal of materials processing technology, 203 (2008)147–153
Advanced Materials Research Vols. 264-265, (2011) pp 1097-1101
Journal of Applied Sciences, 11 (2011) 2578-2584
Advanced Materials Research. 264-265 (2011) 1003-1008
Journal of materials processing technology, 203 (2008)147–153
Advanced Materials Research Vols. 264-265, (2011) pp 1097-1101
Journal of Applied Sciences, 11 (2011) 2578-2584
Online since: July 2011
Authors: Ling Wang, Jian Zhang
Chinese Journal Of Rock Mechanics And Engineer, 2010(29)2148-2158
Journal of Hebei Polytechnic University (Natural Science Edition), 2009(31)11-13
The Application Of Porous Materials in HV&AC.Refrigeration and Air Conditioning[J], 2009(23)26-30
Journal of the University of Petroleum , China, 2000(24)111-116
Building Science, 2010(26)94-107.
Journal of Hebei Polytechnic University (Natural Science Edition), 2009(31)11-13
The Application Of Porous Materials in HV&AC.Refrigeration and Air Conditioning[J], 2009(23)26-30
Journal of the University of Petroleum , China, 2000(24)111-116
Building Science, 2010(26)94-107.
Online since: September 2013
Authors: Shao Jie Liu, Feng Qing Zhao, Xiao Meng Chu, Hui Jiao Yang
Therefore, surface-initiated ARGET ATRP polymerization has become an effective method for modifying the surface of materials.
Therefore, surface-initiated ARGET ATRP polymerization has become an effective method for modifying the surface of materials.
Zhou, New Chemical Materials, 2012,40(7), pp. 21-24 [11] A.
Milena, Journal of Membrane Science, 2011, 385-386, pp. 30-39 [18] Jonsson M., D.
Nordin, European Polymer Journal, 2009, 45, pp. 2374-2382
Therefore, surface-initiated ARGET ATRP polymerization has become an effective method for modifying the surface of materials.
Zhou, New Chemical Materials, 2012,40(7), pp. 21-24 [11] A.
Milena, Journal of Membrane Science, 2011, 385-386, pp. 30-39 [18] Jonsson M., D.
Nordin, European Polymer Journal, 2009, 45, pp. 2374-2382
Online since: October 2013
Authors: Chun Feng Li, Ming Li Liu, Yan Long Liu, Guo Zhi Han
Diatomite is a kind of non-metallic minerals, have properties as the filler, such as good stability, acid resistance, heat resistance, small density, small bulk density, absorption, dispersion and wear resistance [5], In recent years, it was applied widely in acoustic materials, building materials, coatings, insulation materials and other industries [6-8].
Acknowledgements Key Laboratory fund project of wood material science and Engineering of Jilin Province-Research on diatomite modified PP wood plastic composites.
Wood plastic composites: current trends in materials and processing [J].
Properties of heat-insulating materials [J].
Composites Science and Technology, 2004, 64: 693-700 [14] S.Y.
Acknowledgements Key Laboratory fund project of wood material science and Engineering of Jilin Province-Research on diatomite modified PP wood plastic composites.
Wood plastic composites: current trends in materials and processing [J].
Properties of heat-insulating materials [J].
Composites Science and Technology, 2004, 64: 693-700 [14] S.Y.
Online since: May 2018
Authors: Peng Cao, Xuan Hui Qu, Muhammad Dilawer Hayat, Hong Zhou Zhang, Xin Gang Wang, Pratik Prakash Jadhav
Collings: Materials Properties Handbook: Titanium Alloys, ASM International, Materials Park, OH, 1994
Science and Technology of Advanced Materials, 2003. 4(5): p. 445
Materials Science Forum, Vol. 618, p. 165-168
Journal of Applied Sciences Research, 8(6), 2998-3003
Journal of Materials Processing Technology, 212(7), 1591-1597
Science and Technology of Advanced Materials, 2003. 4(5): p. 445
Materials Science Forum, Vol. 618, p. 165-168
Journal of Applied Sciences Research, 8(6), 2998-3003
Journal of Materials Processing Technology, 212(7), 1591-1597
Online since: June 2014
Authors: Xuan Cang Wang, Gui Hua Hu, Xiao Wei Chen
Based on theory of fractal dimension:AC-13 dense gradation asphalt mixed material should have been the most dense in theory, but the set material and asphalt can not reach that dense state as mixed material internal exists micro-gap, micro-crack.
It shows fine material and asphalt mixed material will fill the gap more effective as D value increases.
This further proves fractal theory can apply for asphalt mixed material successful and the theory is expected to become a guide material design of quantitative indicators.
[Thesis for master degree of Changsha University Of Science &Technology].Changsha:Changsha.University.Of.Science&Technology,2008.06 [2] Ministry Of Communications Of The People’s Republic Of China.
Beijing:People’s communications Publishing House,2004 [5] YanQiang,HuanPeng Fractal Characteristic Of Asphalt Mixture Void Journal Of Tongji University 2004.01 [6] LiGuoqiang,DengXuejun On Fractal Gradation Of Aggregates Journal Of Chongqing Jiaotong Institute 1995.06 [7] YangRuihua,LongBin Fractal Characteristic Of Grading Of Asphalt Mixture WESTERN China Communications Science&Technology 2010.6 [8] HuGuihua,ChenXiaowei,LiuHongfu,HuangYunyong Based On Skeleton Type Surface Layer Of Asphalt Mixture Gradation Range Of Continuous Journal Of Foreign Highway 2010.06 [9] HuangYunyong,LiuHongfu, HuGuihua AC-13Asphalt Mixture Gradation Optimization Dseign Research Journal Of Foreign Highway 2008.06 [10] YangRuihua,XuZhihong,ZhangChao,LiMing Fractal Gradation Theory Of Asphalt Mixture Journal Of Tongji University 2008.12
It shows fine material and asphalt mixed material will fill the gap more effective as D value increases.
This further proves fractal theory can apply for asphalt mixed material successful and the theory is expected to become a guide material design of quantitative indicators.
[Thesis for master degree of Changsha University Of Science &Technology].Changsha:Changsha.University.Of.Science&Technology,2008.06 [2] Ministry Of Communications Of The People’s Republic Of China.
Beijing:People’s communications Publishing House,2004 [5] YanQiang,HuanPeng Fractal Characteristic Of Asphalt Mixture Void Journal Of Tongji University 2004.01 [6] LiGuoqiang,DengXuejun On Fractal Gradation Of Aggregates Journal Of Chongqing Jiaotong Institute 1995.06 [7] YangRuihua,LongBin Fractal Characteristic Of Grading Of Asphalt Mixture WESTERN China Communications Science&Technology 2010.6 [8] HuGuihua,ChenXiaowei,LiuHongfu,HuangYunyong Based On Skeleton Type Surface Layer Of Asphalt Mixture Gradation Range Of Continuous Journal Of Foreign Highway 2010.06 [9] HuangYunyong,LiuHongfu, HuGuihua AC-13Asphalt Mixture Gradation Optimization Dseign Research Journal Of Foreign Highway 2008.06 [10] YangRuihua,XuZhihong,ZhangChao,LiMing Fractal Gradation Theory Of Asphalt Mixture Journal Of Tongji University 2008.12
Online since: October 2010
Authors: Annemarie Preiss, Bo Su, Simon Collins, Peter Ellison
Materials Science and Engineering A, 1999. 262(1-2): p. 192-203.
2.
Vandeperre, Electrophoretic deposition of materials.
Annual Review of Materials Science, 1999. 29: p. 327-352. 5.
Journal of Materials Science, 2004. 39(3): p. 803-811. 6.
Progress in Materials Science, 2007. 52(1): p. 1-61. 7.
Vandeperre, Electrophoretic deposition of materials.
Annual Review of Materials Science, 1999. 29: p. 327-352. 5.
Journal of Materials Science, 2004. 39(3): p. 803-811. 6.
Progress in Materials Science, 2007. 52(1): p. 1-61. 7.
Online since: January 2013
Authors: Yan Peng Jiao, Fang Min Situ, Chang Ren Zhou
Experimental
Materials.
Journal of Applied Polymer Science Vol.106 (2007), p.3136 [2] Y.
Advanced Functional materials Vol.17 (2007), p2139 [3] Y.
Journal of Applied Polymer Science Vol.92 (2004), p.878 [6] Y.
Journal of Applied Polymer Science Vol. 90 (2003), p.2500 [7] G.W.
Journal of Applied Polymer Science Vol.106 (2007), p.3136 [2] Y.
Advanced Functional materials Vol.17 (2007), p2139 [3] Y.
Journal of Applied Polymer Science Vol.92 (2004), p.878 [6] Y.
Journal of Applied Polymer Science Vol. 90 (2003), p.2500 [7] G.W.