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Online since: February 2015
Authors: R. Kiruba, Solomon Jeevaraj A. Kingson
Synthesis of polymer stabilized ZnO nanostructures has drawn much more attention because stabilization and surface passivation properties of these nanostructures are most important for the development of electrical and optical materials based on these nanostructures.
[2] Shingo Tachikawa, Atsushi Noguchi, Takeharu Tsuge, Masahiko Hara, Osamu Odawara and Hiroyuki Wada, Optical Properties of ZnO nanoparticles capped with polymers, Materials. 4 (2011) 1132-1143
Sagayaraj, Investigation on the synthesis, structural and optical properties of ZnO nanorods prepared under CTAB assisted hydrothermal conditions, Archives of Applied Science Research. 4 (2012) 1698-1704
[7] Magnus Willander, Omer Nur, Jamil Rana Sadaf, Muhammad Israr Qadir, Saima Zaman, Ahmed Zainelabdin, Nargis Bano and Ijaz Hussain, Luminescence from zinc oxide nanostructures and polymers and their hybrid devices, Materials. 3 (2010) 2643-2667
Park and Yongmin Kim, Temperature dependence of the optical quenching behavior of ZnO nanorods, Journal of the Korean Physical Society. 58, (2011) 1174-1177
[2] Shingo Tachikawa, Atsushi Noguchi, Takeharu Tsuge, Masahiko Hara, Osamu Odawara and Hiroyuki Wada, Optical Properties of ZnO nanoparticles capped with polymers, Materials. 4 (2011) 1132-1143
Sagayaraj, Investigation on the synthesis, structural and optical properties of ZnO nanorods prepared under CTAB assisted hydrothermal conditions, Archives of Applied Science Research. 4 (2012) 1698-1704
[7] Magnus Willander, Omer Nur, Jamil Rana Sadaf, Muhammad Israr Qadir, Saima Zaman, Ahmed Zainelabdin, Nargis Bano and Ijaz Hussain, Luminescence from zinc oxide nanostructures and polymers and their hybrid devices, Materials. 3 (2010) 2643-2667
Park and Yongmin Kim, Temperature dependence of the optical quenching behavior of ZnO nanorods, Journal of the Korean Physical Society. 58, (2011) 1174-1177
Online since: October 2015
Authors: Hafedh Dhifelaoui, Lassaad Zoghlami, Ahmed Ben Cheikh Larbi, Kaouthar Khlifi
Recently there has been a worldwide intensive research in the development of novel engineering materials, especially in the form of thin films.
Second level The material used as substrate is 100C6 steel (AISI 52100).
Joshi, Materials Science and Engineering A 545 (2012) 155– 161
[3] Nguyen Dang Nam, Mahesh Vaka, Nguyen Tran Hung, Journal of Power Sources 268 (2014) 240-245
Materials Science and Engineering A 528 (2011) 6438– 6444
Second level The material used as substrate is 100C6 steel (AISI 52100).
Joshi, Materials Science and Engineering A 545 (2012) 155– 161
[3] Nguyen Dang Nam, Mahesh Vaka, Nguyen Tran Hung, Journal of Power Sources 268 (2014) 240-245
Materials Science and Engineering A 528 (2011) 6438– 6444
Online since: September 2007
Authors: Fan Xiu Lu, Chen Fei, Chen Chen, Hai Zhou, Fan Xiu Lu
Study On the Corrosion Resistance Properties of the Ceramic Coating
Obtained Through Microarc Oxidation on the Aluminium Alloy Surface
Fei Chen1, 2, a
, Hai Zhou
1, Chen Chen
1
and Fanxiu Lü2
1
College of Mechanical Engineering, Beijing Institute of Petrochemical Technology,
Beijing 102617, China
2
School of Materials Science and Engineering, University of Science and Technology,
Beijing 100083, China
a
chenfei@bipt.edu.cn
Keywords: Aluminum alloy; Microarc oxidation; Corrosion resistance properties.
Introduction Aluminum alloys, which are strategically and structurally important materials due to their high specific strength.
Experimental Materials and coating procedure.
LY12 aluminum alloy, which has a nominal composition of 3.8~4.9%Cu, 1.2~1.8%Mg, 0.50%Si, 0.3~0.9%Mn and 0.50%Fe was used as the substrate material for all the coating.
Borisov: Nuclear Instruments and Methods in Physics Research B Vol.161-163(2000), p.553 [4] Jiang Bailing, Zhang Feng, Zhu Jing: Metal Heat Treatment Vol. 29(1) (2004), p. 23 [5] Jang Bailing, Zhang Xianfeng, Zhu Jing: Journal of Xi'an University of Technology Vol. 19(4) (2003), p.297 [6] W.Xue, Z.
Introduction Aluminum alloys, which are strategically and structurally important materials due to their high specific strength.
Experimental Materials and coating procedure.
LY12 aluminum alloy, which has a nominal composition of 3.8~4.9%Cu, 1.2~1.8%Mg, 0.50%Si, 0.3~0.9%Mn and 0.50%Fe was used as the substrate material for all the coating.
Borisov: Nuclear Instruments and Methods in Physics Research B Vol.161-163(2000), p.553 [4] Jiang Bailing, Zhang Feng, Zhu Jing: Metal Heat Treatment Vol. 29(1) (2004), p. 23 [5] Jang Bailing, Zhang Xianfeng, Zhu Jing: Journal of Xi'an University of Technology Vol. 19(4) (2003), p.297 [6] W.Xue, Z.
Online since: August 2014
Authors: Tian Tian Zhang, Hong Ya Li, Biao Yan
Experimental
Materials.
Xu: Research of Environmental Sciences Vol. 18(2005), p. 104-106
Bai et.al: Advanced Materials Research Vol. 641-642(2013), p. 281-284
Papayannakos: Studies in Surface Science and Catalysis Vol. 13 (2000), p. 749-754
Chen: Journal of Hazardous Materials Vol. 180 (2010), p. 481-485
Xu: Research of Environmental Sciences Vol. 18(2005), p. 104-106
Bai et.al: Advanced Materials Research Vol. 641-642(2013), p. 281-284
Papayannakos: Studies in Surface Science and Catalysis Vol. 13 (2000), p. 749-754
Chen: Journal of Hazardous Materials Vol. 180 (2010), p. 481-485
Online since: May 2012
Authors: Xiao Xian Jiang, Ting Zhang, Bo Li, Chun Chang
Olson et al.[5] used furniture and building waste as materials to produce ethyl levulinate.
As a monomer unit of cellulose, glucose is usually chosen as the mode material for the conversion of biomass.
Materials and methods Materials.
In addition, the ethyl levulinate decreased significantly with the increase of water addition, the highest yield of ethyl levulinate was obtained with no water addition Acknowledgements This work was financially supported by the National Natural Science Foundation of China (21176227).
Journal of Wood Chemistry and Technology.
As a monomer unit of cellulose, glucose is usually chosen as the mode material for the conversion of biomass.
Materials and methods Materials.
In addition, the ethyl levulinate decreased significantly with the increase of water addition, the highest yield of ethyl levulinate was obtained with no water addition Acknowledgements This work was financially supported by the National Natural Science Foundation of China (21176227).
Journal of Wood Chemistry and Technology.
Online since: September 2013
Authors: Feng Xiu Zhang, Guang Xian Zhang, Cheng Chen, Ling Zhong
Experimental
Materials and chemicals.
Science of Sericulture, 2008, 34(4): 701-705
Advanced materials research, 2011, 331: 291-297
Journal of silk, 2013, 50(5):1-5
Advanced materials research, 2012, 549: 278-282.
Science of Sericulture, 2008, 34(4): 701-705
Advanced materials research, 2011, 331: 291-297
Journal of silk, 2013, 50(5):1-5
Advanced materials research, 2012, 549: 278-282.
Online since: October 2015
Authors: Ľudovít Kubičár, Ján Hudec, Danica Fidríková, Peter Dieška, Martin Vitkovič
Historical monuments are most often built from materials (plaster, walls, rocks, etc.), which have a porous structure.
Although the objects are constructed of different materials, the nature of the porous structure is common.
Moore, Unsaturatedwater flow within porous materials observed by NMR imaging, Nature 281 (1979) 56–57
Testing a novel technique for measuring moisture in ruined walls, Journal of Cultural Heritage 7 (2006) 257–263
Kubičár, Sensor for Monitoring the Moisture in Porous Materials, Int J Thermophys 34 (2013) 1918–1929
Although the objects are constructed of different materials, the nature of the porous structure is common.
Moore, Unsaturatedwater flow within porous materials observed by NMR imaging, Nature 281 (1979) 56–57
Testing a novel technique for measuring moisture in ruined walls, Journal of Cultural Heritage 7 (2006) 257–263
Kubičár, Sensor for Monitoring the Moisture in Porous Materials, Int J Thermophys 34 (2013) 1918–1929
Online since: June 2016
Authors: Wahyono Suprapto, Yudy Surya Irawan, Rudy Soenoko, Sri Mulyo Bondan Respati
Materials mentioned above are not suitable for large scale products because ceramic is very expensive.
Natural zeolite material is unique physically and chemically.
Zeolite material can be used to produce ceramic material by heating at a low temperature sintering.
Castro and K. van Benthem (eds.), Sintering, Engeneering Materials 35, Springer-Verlag Berlin Heidelberg (2013) [12] P.Atanda, A.
International Conference on the Science, Technology & Applications of sintering (2003) 130.18.14.28 [14] D.
Natural zeolite material is unique physically and chemically.
Zeolite material can be used to produce ceramic material by heating at a low temperature sintering.
Castro and K. van Benthem (eds.), Sintering, Engeneering Materials 35, Springer-Verlag Berlin Heidelberg (2013) [12] P.Atanda, A.
International Conference on the Science, Technology & Applications of sintering (2003) 130.18.14.28 [14] D.
Online since: December 2014
Authors: Rhali Benamar, Mounia El Kadiri, Hanane Moulay Abdelali
AIAA Journal.
Fibre Science and Technology.
Journal of Sound and Vibration.
International Journal of Mechanical Sciences.
International Journal of Mechanical Sciences, Vol. 50 (2008), p. 1133-1141 [22] Zhou L, Zheng WX.
Fibre Science and Technology.
Journal of Sound and Vibration.
International Journal of Mechanical Sciences.
International Journal of Mechanical Sciences, Vol. 50 (2008), p. 1133-1141 [22] Zhou L, Zheng WX.
Online since: July 2013
Authors: J. Kumar
Calcium phosphate is a good biocompatible ceramic material which is used as a material for drug delivery for bone disorders.
Biopolymer/ inorganic material composites are used as drug carrier for controlled drug delivery.
Inorganic materials including clays, hydroxyapatite (HA), silica and carbon nanotubes are the different inorganic materials which have been used for the preparation of the composites.
Indian journal of Pharmaceutical Sciences. 68, (2006), pp 665
Key engineering materials. 330, (2007), pp1053
Biopolymer/ inorganic material composites are used as drug carrier for controlled drug delivery.
Inorganic materials including clays, hydroxyapatite (HA), silica and carbon nanotubes are the different inorganic materials which have been used for the preparation of the composites.
Indian journal of Pharmaceutical Sciences. 68, (2006), pp 665
Key engineering materials. 330, (2007), pp1053