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Online since: September 2013
Authors: Mohd Zaini Nurul Aizan, Salim Abdul Salim Zainathul Akhmar, Ahmad Mohd Muhiddin, Jamil Siti Sarah, Zainuddin Nor Hazwani
Bamboo is suitable to be used as the reinforcing filler in this study because bamboo has the properties of strong materials which as good as other building materials like steel, concrete, and timber [5].
The main raw materials for this study were natural rubber (SMR20) and bamboo fibre from the species of Schizostachyum zollingeri (Buluh Dinding).
Sombatsompop, Use of bagasse fiber ash as secondary filler in silica or carbon black filled natural rubber compound, Materials and Design (2012) 74-82
Srivinas, Effect of alkali treatment, fibre loading and hybridization on tensile properties of sisal fibre, banana empty fruit bunch fibre and bamboo fibre reinforced thermoset composites, International Journal of Engineering Science and Advanced Technology (2012) 706-711
Borneo Sciences (2009) 81-86
The main raw materials for this study were natural rubber (SMR20) and bamboo fibre from the species of Schizostachyum zollingeri (Buluh Dinding).
Sombatsompop, Use of bagasse fiber ash as secondary filler in silica or carbon black filled natural rubber compound, Materials and Design (2012) 74-82
Srivinas, Effect of alkali treatment, fibre loading and hybridization on tensile properties of sisal fibre, banana empty fruit bunch fibre and bamboo fibre reinforced thermoset composites, International Journal of Engineering Science and Advanced Technology (2012) 706-711
Borneo Sciences (2009) 81-86
Online since: July 2015
Authors: Suresh Sagadevan
INTRODUCTION
Nanoscale materials have attracted significantly scientific and industrial interests due to the fact that they demonstrate a variety of chemical, physical and functional properties different from the corresponding bulk materials.
Nanomaterials are classified into compact materials and nanodispersions.
The reason that nanoscale materials and structures are so interesting is that size constraints often produce qualitatively new behavior.
Therefore, the dielectric constant of nanostructured materials should be larger than that of the conventional materials [10].
Kelemen, and O.Chuiko, Radiation Measurements, 38(2004) 567-570 [8] Suresh Sagadevan, International Journal of Physical Sciences. 8(21) (2013) 1121-1127 [9] Suresh Sagadevan, American Journal of Nanoscience and Nanotechnology. 1(2013) 27-30
Nanomaterials are classified into compact materials and nanodispersions.
The reason that nanoscale materials and structures are so interesting is that size constraints often produce qualitatively new behavior.
Therefore, the dielectric constant of nanostructured materials should be larger than that of the conventional materials [10].
Kelemen, and O.Chuiko, Radiation Measurements, 38(2004) 567-570 [8] Suresh Sagadevan, International Journal of Physical Sciences. 8(21) (2013) 1121-1127 [9] Suresh Sagadevan, American Journal of Nanoscience and Nanotechnology. 1(2013) 27-30
Online since: October 2011
Authors: Ying Hua Zhao, Ming Yang, Deng Xin Li, Ying Chen Zhang
Despite its widespread use in industries, activated carbon remains an expensive material.
Therefore, it is necessary to product low cost and effective adsorption materials that can be applied to water pollution control.
Expanded graphite (EG) is a kind of poriferous material.
References [1]K.G.Sreejalekshmi, K.Anoop Krishnan, T.S.Anirudhan, J.Journal of Hazardous Materials.161(2009)1506-1513 [2] Katsura T.
Journal of Beijing Union University(Natural Sciences).20(3)2006:76-79 [5]Cheng Shixian, J.
Therefore, it is necessary to product low cost and effective adsorption materials that can be applied to water pollution control.
Expanded graphite (EG) is a kind of poriferous material.
References [1]K.G.Sreejalekshmi, K.Anoop Krishnan, T.S.Anirudhan, J.Journal of Hazardous Materials.161(2009)1506-1513 [2] Katsura T.
Journal of Beijing Union University(Natural Sciences).20(3)2006:76-79 [5]Cheng Shixian, J.
Online since: December 2012
Authors: Xiao Hong Yang, Ting Liu, Ai Nong Yu, Ting Xiao, Le Wang
Materials and methods
Materials and reagents.The Akebia trifoliata flowers were collected of dianjiang chongqing in May, 2011.
Study on Supercritical CO2 Extraction of Fatty Oils from the Seed of Akebia trifoliata(Thunb)Koidz[J].Journal of Chinese Medicinal Materials,2007,30(3):345-349
Beijing: Science Press,2001:4
Journal of Henan University, 2009, 28 (2): 101-103
Rehd.by Supercritical CO2 Fluid[J].Food Science,2005, 26(8):281-283
Study on Supercritical CO2 Extraction of Fatty Oils from the Seed of Akebia trifoliata(Thunb)Koidz[J].Journal of Chinese Medicinal Materials,2007,30(3):345-349
Beijing: Science Press,2001:4
Journal of Henan University, 2009, 28 (2): 101-103
Rehd.by Supercritical CO2 Fluid[J].Food Science,2005, 26(8):281-283
Online since: May 2013
Authors: Yi Wang, Xiao Xia Chen, Zhi Qiang Jiang
The reinforced cut-out in composite materials was investigated and the reinforcements were applied in the laminate so as to form an integral part of the structure [1] .
(Composites Science and Technology,1999, 59: 2125-2137)
(Composites Part A: Applied Science and Manufacturing ,2006,37: 413-422)
(Journal of applied mechanics , 1980,47: 329)
A fatigue failure criterion for fiber reinforced materials(Journal of composite materials,1973,7: 448-464).
(Composites Science and Technology,1999, 59: 2125-2137)
(Composites Part A: Applied Science and Manufacturing ,2006,37: 413-422)
(Journal of applied mechanics , 1980,47: 329)
A fatigue failure criterion for fiber reinforced materials(Journal of composite materials,1973,7: 448-464).
Online since: August 2017
Authors: V. Porkalai, B. Sathya, G. Nedunchezhian, R. Meenambika, D. Benny Anburaj
Introduction
Nanotechnology is broad range of research and finds variety of potential applications in surface science, organic chemistry, molecular biology, semiconductor physics etc.
The primary requirement of any study dealing with nanoparticles is the synthesis and characterization of materials of interest.
The quality of synthesis technique depends on its ability to control the important features of the nanocrystalline materials such as crystalline size and morphology of the nanoparticles.
K .Duchaniya, Surface Modification of Ag Nano Composites Polymer Membranes by Glow Discharge, Journal ofJournal of Materials Science and Surface Engineering, vol. 1(1) (2013), 11-14
Huse, L.B.Patle, A.L.Chaudle,G.H.Sonawane, Synthesis of Cu Doped ZnO Nanoparticles: Crystallographic, Optical, FTIR, Morphological and Photocatalytic Study, Journal of Materials science and Chemical Engineering, vol 3 (2015),3, 39-51
The primary requirement of any study dealing with nanoparticles is the synthesis and characterization of materials of interest.
The quality of synthesis technique depends on its ability to control the important features of the nanocrystalline materials such as crystalline size and morphology of the nanoparticles.
K .Duchaniya, Surface Modification of Ag Nano Composites Polymer Membranes by Glow Discharge, Journal ofJournal of Materials Science and Surface Engineering, vol. 1(1) (2013), 11-14
Huse, L.B.Patle, A.L.Chaudle,G.H.Sonawane, Synthesis of Cu Doped ZnO Nanoparticles: Crystallographic, Optical, FTIR, Morphological and Photocatalytic Study, Journal of Materials science and Chemical Engineering, vol 3 (2015),3, 39-51
Online since: January 2015
Authors: Yan Qin, Yun Xia Li, Min Xian Shi, Yi Xin Qi
In recent years [3,4], the way that uses silicone reacting with phenolic resin to prepare organic-inorganic hybrid materials has become a hot research in materials science.
Polymer materials science and engineering, 2000, 16(1): 164-165.
Journal of the American Chemical Society, 1960, 82(23): 6194
Research on high char yield phenolic resin ablative materials [J].
New chemical materials, 2008, 36(5): 50-52.
Polymer materials science and engineering, 2000, 16(1): 164-165.
Journal of the American Chemical Society, 1960, 82(23): 6194
Research on high char yield phenolic resin ablative materials [J].
New chemical materials, 2008, 36(5): 50-52.
Online since: September 2014
Preface
2014 the second International Conference on Materials, Transportation and Environmental
Engineering (CMTEE 2014) will be held on July 30-31, 2014, in Kunming, China.
The conference aims mainly at promoting the development of Materials, Transportation, Environmental Engineering and New Technology, strengthening the international academic cooperation and communications, and exchanging research ideas.
We believe the proceedings will provide the readers a broad overview of the latest advances in the field of Materials, Transportation, Environmental Engineering and New Technology.
Thomas Wohlbier, Managing Editor of Journal of Advanced Materials Research, is greatly acknowledged.
Pa, National Taipei University of Education Shao-Wen Su, National Chin-Yi University of Technology Yi-Ying Chang, National Chin-Yi University of Technology Cheng-Yi Yu, National Chin-Yi University of Technology Jun-Hong Lin, Nanhua University Lei Wei, National Chin-Yi University of Technology Kuang-Cheng Yu, National Chin-Yi University of Technology Ting-Yu Chen, National Chin-Yi University of Technology Chih-Neng Hsu, National Chin-Yi University of Technology Co-Sponsored by National Chin-Yi University of Technology National Cheng Kung University National Sun Yan-Sen University National Chi Nan University, ChienKuo Technology University Control Engineering and Information Science Research Association International Frontiers of science and technology Research Association Trans Tech Publications
The conference aims mainly at promoting the development of Materials, Transportation, Environmental Engineering and New Technology, strengthening the international academic cooperation and communications, and exchanging research ideas.
We believe the proceedings will provide the readers a broad overview of the latest advances in the field of Materials, Transportation, Environmental Engineering and New Technology.
Thomas Wohlbier, Managing Editor of Journal of Advanced Materials Research, is greatly acknowledged.
Pa, National Taipei University of Education Shao-Wen Su, National Chin-Yi University of Technology Yi-Ying Chang, National Chin-Yi University of Technology Cheng-Yi Yu, National Chin-Yi University of Technology Jun-Hong Lin, Nanhua University Lei Wei, National Chin-Yi University of Technology Kuang-Cheng Yu, National Chin-Yi University of Technology Ting-Yu Chen, National Chin-Yi University of Technology Chih-Neng Hsu, National Chin-Yi University of Technology Co-Sponsored by National Chin-Yi University of Technology National Cheng Kung University National Sun Yan-Sen University National Chi Nan University, ChienKuo Technology University Control Engineering and Information Science Research Association International Frontiers of science and technology Research Association Trans Tech Publications
Online since: July 2011
Authors: Zhen Tao Shang, Xiao Min Sheng, G.Z. Xie, Y. Wu, Tan Jin
Shi: Grinding of Difficult to Cut Materials, National Defence Industry Press, China 1999
Liu: International Journal of Machine Tools & Manufacture Vol. 43 (2003), pp: 811-823
Rowe: International Journal of Machine Tools & Manufacture Vol. 41 (2001), pp: 1-19
Mccormack: International Journal of Machine Tools & Manufacture Vol. 42 (2002), pp: 53-59
Malkin: Journal of Manufacturing Science and Engineering Vol. 123 (2001), pp: 191-195
Liu: International Journal of Machine Tools & Manufacture Vol. 43 (2003), pp: 811-823
Rowe: International Journal of Machine Tools & Manufacture Vol. 41 (2001), pp: 1-19
Mccormack: International Journal of Machine Tools & Manufacture Vol. 42 (2002), pp: 53-59
Malkin: Journal of Manufacturing Science and Engineering Vol. 123 (2001), pp: 191-195
Online since: May 2012
Authors: Hui Ming Zhang, Hua Ma, Zhen Bao Li, Er Wei Guo, Wen Jing Wang
Material Constitutive Model.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51078011) and the National Natural Science Foundation of China (51178014).
[2] ZhenBao Li, WenJing Wang: Advanced Materials Research, Vol. 446-449 (2012), p. 981-988
[3] Xingwen Liang: Journal of Building Structures, Vol.
Priestley: Journal of Structural Engineering, Vol. 114-8 (1988), p. 1804-1826
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51078011) and the National Natural Science Foundation of China (51178014).
[2] ZhenBao Li, WenJing Wang: Advanced Materials Research, Vol. 446-449 (2012), p. 981-988
[3] Xingwen Liang: Journal of Building Structures, Vol.
Priestley: Journal of Structural Engineering, Vol. 114-8 (1988), p. 1804-1826