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Online since: December 2014
Authors: Jin Yi Zhong, Jian Ping Wang, Xiao Wen Li, Zi Chao Li
Materials and Methods
Animals.
Journal of Nutritional Science and Vitaminology. 1999, 45: 375–383
Journal of Oleo Science. 2011, 60, (2):71-77
British Journal of Cancer. 2007, 96: 1092-1100
Journal of Hygiene Research. 2013, 42(3): 466-469
Journal of Nutritional Science and Vitaminology. 1999, 45: 375–383
Journal of Oleo Science. 2011, 60, (2):71-77
British Journal of Cancer. 2007, 96: 1092-1100
Journal of Hygiene Research. 2013, 42(3): 466-469
Online since: November 2010
Authors: Juan Qin Xue, Yu Jie Wang, Qiang Bi, Yun Feng Xue, Ying Juan Guo
The reference for industrial applications and theoretical researches can be provided by the results.
2 Experimental
2.1 Materials
Chitosan was purchased from Sinopharm Chemical Reagent and used in the present study without any further purification.
Journal of Hazardous Materials.148 (2007), p. 353-359
Journal of Hazardous Materials.162 (2009), p. 503-511
Journal of Northeastern University(Natural Science). 2001,22 (5), p. 547-549
Environmental Science & Technology. 2000,1, p. 10-12
Journal of Hazardous Materials.148 (2007), p. 353-359
Journal of Hazardous Materials.162 (2009), p. 503-511
Journal of Northeastern University(Natural Science). 2001,22 (5), p. 547-549
Environmental Science & Technology. 2000,1, p. 10-12
Online since: February 2014
Authors: Suhana Binti Mohd Said, Muhammad Akmal Bin Kamarudin, Ahmad Zulazlan Shah Bin Zulkifli, Azizah Binti Mainal
Liquid crystals are commonly used to template inorganic and organic materials, which increase the carrier mobility and electrical conductivity [4].
Nor Sabirin Binti Mohamed from the Center for Foundation Studies in Science for allowing the use of impedance analyzer and Department of Chemistry, Faculty of Science, University of Malaya for NMR usage.
Wan, "Review of gel-type polymer electrolytes for lithium-ion batteries," Journal of Power Sources, vol. 77, pp. 183-197, 1999
Wang, "Recent research progress on polymer electrolytes for dye-sensitized solar cells," Solar Energy Materials and Solar Cells, vol. 93, pp. 1167-1175, 2009
Wu, "Study of ionic transport properties of alkaline poly(vinyl) alcohol-based polymer electrolytes," Materials Chemistry and Physics, vol. 92, pp. 251-255, 2005.
Nor Sabirin Binti Mohamed from the Center for Foundation Studies in Science for allowing the use of impedance analyzer and Department of Chemistry, Faculty of Science, University of Malaya for NMR usage.
Wan, "Review of gel-type polymer electrolytes for lithium-ion batteries," Journal of Power Sources, vol. 77, pp. 183-197, 1999
Wang, "Recent research progress on polymer electrolytes for dye-sensitized solar cells," Solar Energy Materials and Solar Cells, vol. 93, pp. 1167-1175, 2009
Wu, "Study of ionic transport properties of alkaline poly(vinyl) alcohol-based polymer electrolytes," Materials Chemistry and Physics, vol. 92, pp. 251-255, 2005.
Online since: September 2021
Authors: Nikita A. Emelianov, Vasily E. Melnichenko, Ivanna N. Melnikovich, Artem V. Budaev
Piezoelectric force microscopy is widely used to study the static and dynamic local properties of ferroelectric materials.
Experimental Details Materials Samples of the nanocomposite under the study were obtained by sequential deposition from droplets on a glass substrate with a sputtered gold sublayer.
ACS Applied materials & interfaces 1.10 (2009): 2115-2118
Journal of membrane science 375.1-2 (2011): 1-27
Journal of Polymer Science Part B: Polymer Physics 50.18 (2012): 1271-1276
Experimental Details Materials Samples of the nanocomposite under the study were obtained by sequential deposition from droplets on a glass substrate with a sputtered gold sublayer.
ACS Applied materials & interfaces 1.10 (2009): 2115-2118
Journal of membrane science 375.1-2 (2011): 1-27
Journal of Polymer Science Part B: Polymer Physics 50.18 (2012): 1271-1276
Online since: August 2012
Authors: Lin Li, Kai Zhao, Dian Hong Yu, Lin Hai Cao
It can be applied to all of the electromagnetic radiation and all of the light absorbing material.
Journal of Optical Communication Technology, 7(2008), pp. 51-53
Journal of Techniques of Automation and Applications, 29, 4(2010), pp. 60-61
Journal of China Spectroscopy and Spectral Analysis, 29, 6(2009), pp.1521–1525
Science Press, Beijing, (2008)
Journal of Optical Communication Technology, 7(2008), pp. 51-53
Journal of Techniques of Automation and Applications, 29, 4(2010), pp. 60-61
Journal of China Spectroscopy and Spectral Analysis, 29, 6(2009), pp.1521–1525
Science Press, Beijing, (2008)
Online since: July 2014
Authors: Wei Chen, Yu Hua Wu, Min Sheng Guan, Hong Biao Du
The wall materials are common fried brick.
The material physical parameters of the infilled walls are as follows: the elastic modulus is 2.4×103 Mpa, the grade of mortar strength is M5, the grade of masonry strength is MU10, and the weight density is 18 kN/m3.
Acknowledgements This work was financially supported by the Intellectual Innovation Program of Shenzhen Science and Technology Innovation Committee (JCYJ20130329142338934) , the Open Foundation of State Key Laboratory of Subtropical Building Science, South China University of Technology (2014KB27) and the Youth Science Foundation of Guangdong University of Technology(13QNZD007).
References [1] J.G.Zhang, T.Z.Huang, W.Z.Lei and B.F.He: Geological Bulletin of China, Vol.28 (2009), p.1079 (in Chinese) [2] S.Hou and W.Yang:Journal of Dalian University of Technology, Vol.49 (2009), p.754 (in Chinese) [3] M.Z.
Zhang: China Civil Engineering Journal, Vol.42 (2009),p.21 (in Chinese) [4] W.W.El-Dakhakhni, M.Elgaaly and A.A.Hamid: Journal of Structural Engineering-ASCE, Vol.129 (2003),p.177 [5] L.Koutromanos, A.Stavridis and P.
The material physical parameters of the infilled walls are as follows: the elastic modulus is 2.4×103 Mpa, the grade of mortar strength is M5, the grade of masonry strength is MU10, and the weight density is 18 kN/m3.
Acknowledgements This work was financially supported by the Intellectual Innovation Program of Shenzhen Science and Technology Innovation Committee (JCYJ20130329142338934) , the Open Foundation of State Key Laboratory of Subtropical Building Science, South China University of Technology (2014KB27) and the Youth Science Foundation of Guangdong University of Technology(13QNZD007).
References [1] J.G.Zhang, T.Z.Huang, W.Z.Lei and B.F.He: Geological Bulletin of China, Vol.28 (2009), p.1079 (in Chinese) [2] S.Hou and W.Yang:Journal of Dalian University of Technology, Vol.49 (2009), p.754 (in Chinese) [3] M.Z.
Zhang: China Civil Engineering Journal, Vol.42 (2009),p.21 (in Chinese) [4] W.W.El-Dakhakhni, M.Elgaaly and A.A.Hamid: Journal of Structural Engineering-ASCE, Vol.129 (2003),p.177 [5] L.Koutromanos, A.Stavridis and P.
Online since: July 2011
Authors: Chu Wang Su, Quan Ping Yuan, Jing Da Huang, Kang Yang
Introduction
With the development of science and technology and the improvement of living quality, the social demand of sound absorption material increases rapidly, such as concert hall, cinema, recording studio, audiometric room, KTV, multi-media studio, meeting room, auditorium, multi-media classroom and so on, where excellent sound absorption materials should be used to produce appropriate loudness, higher definition, enough fullness, nicer expansion and space feeling through acoustic quality design , and to make it no acoustic echo and flutter and other acoustic defects.
Some scholars have done researches on the acoustical performance of woodiness materials.
Reference [1] Chen Ruiying: Journal of Fujian College of Forestry.Vol. 14 (1994), p. 306-310 [2] Jiang Guijun: Forestry Science & Techonology.Vol. 33 (2008), P. 51-53 [3] Zhou Xiaoyan , Hua Yukun and Piao Xuesong :Jouranal of Nanjing Forestry.
Vol. 24 (2000), p. 23-26 [4] Zhou Xiaoyan, Li Jian and Tian Haifu: China Forestry Science and Technology.Vol. 15 (2001), p.23-24 [5] Xu Liang : Tropical Forestry Science and Technology.
No.2 (1984), p. 53-60 [6] Ma Dayou: China Science.Vol. 1 (1975), p. 38-50
Some scholars have done researches on the acoustical performance of woodiness materials.
Reference [1] Chen Ruiying: Journal of Fujian College of Forestry.Vol. 14 (1994), p. 306-310 [2] Jiang Guijun: Forestry Science & Techonology.Vol. 33 (2008), P. 51-53 [3] Zhou Xiaoyan , Hua Yukun and Piao Xuesong :Jouranal of Nanjing Forestry.
Vol. 24 (2000), p. 23-26 [4] Zhou Xiaoyan, Li Jian and Tian Haifu: China Forestry Science and Technology.Vol. 15 (2001), p.23-24 [5] Xu Liang : Tropical Forestry Science and Technology.
No.2 (1984), p. 53-60 [6] Ma Dayou: China Science.Vol. 1 (1975), p. 38-50
Online since: February 2016
Authors: Francesca Di Puccio, Enrico Ciulli
The surface conditions are put in relation with some particular trends of the friction coefficient obtained for certain combinations of materials and roughness.
Materials and samples properties and labels.
Apart from Al-Al min curve, which is clearly identified, minimum curves for other materials (MIN) are almost overlapped.
These effects can be attributed mainly to the specimen for C1-Al600 while to the disc for C2-Sm60 and C3-Tc35 depending on the different hardness of the materials.
Conclusions The contact between cylindrical specimens and the plane surface of several discs has been studied for different materials, surface roughness and texture.
Materials and samples properties and labels.
Apart from Al-Al min curve, which is clearly identified, minimum curves for other materials (MIN) are almost overlapped.
These effects can be attributed mainly to the specimen for C1-Al600 while to the disc for C2-Sm60 and C3-Tc35 depending on the different hardness of the materials.
Conclusions The contact between cylindrical specimens and the plane surface of several discs has been studied for different materials, surface roughness and texture.
Online since: June 2015
Authors: S. Sivasaravanan, V.K. Bupesh Raja, Gokulaprasad Gokulaprasad, S. Dineshkumar, S. Prabhu
Abstract: Usage of Hybrid nano composite materials provides a greater opportunity to replace the conventional materials due to their properties such as light weight and high strength to based on weight ratio.
The hybrid nano composite materials are many engineering related applications such as boats, automobiles, aerospace, marine purpose etc. [8].
Among the three types of hybrid composite materials, 3wt% and 2wt% of Nano Clay/LDH combinations showed the greatest tensile and flexural strength.
Gao, “Effects of Nanometer Material and Their Application,” Journal of Jiangsu University of Science and Technology, vol. 22, no. 06, pp. 63- 70, 2001
Effect of post-synthesis microwavehydrothermal treatment on the properties of layered double hydroxides and related materials.
The hybrid nano composite materials are many engineering related applications such as boats, automobiles, aerospace, marine purpose etc. [8].
Among the three types of hybrid composite materials, 3wt% and 2wt% of Nano Clay/LDH combinations showed the greatest tensile and flexural strength.
Gao, “Effects of Nanometer Material and Their Application,” Journal of Jiangsu University of Science and Technology, vol. 22, no. 06, pp. 63- 70, 2001
Effect of post-synthesis microwavehydrothermal treatment on the properties of layered double hydroxides and related materials.
Online since: October 2015
Authors: Tatyana G. Cherkasova, Elizaveta V. Cherkasova
Introdution
The researches in the production of the various functional materials from the precursors including the hybrid inorganic-organic compounds are being carried out nowadays.
The methods of producing the heterometallic molecular materials with the extended structure which can be used as catalysts, conductors and molecular magnets are energy efficient.
Binuclear coordination compounds - double complex compounds - with organic and inorganic ligands are promising precursors of various functional materials and nanocomposites [1].
Materials and methods Lanthanide (III) chlorides or nitrates (LnCl3·6H2O, Ln(NO3)3·6H2O), ε-caprolactam (ε C6H11NO, Cpl), nicotinic acid (C5H5NCOO, Hnic) in commercially available forms and potassium hexa (isothiocyanate) chromate (III) K3[Cr(NCS)6]·4H2O, produced by the reacting of KNCS и KCr(SO4)2·12H2O in the hydroalcoholic solution [7,8] are used as the feedstock.
Peresypkina (Nikolaev Institute of Inorganic Chemistry, Siberian Branch, Russian Academy of Science) for they help to X-ray investigations.
The methods of producing the heterometallic molecular materials with the extended structure which can be used as catalysts, conductors and molecular magnets are energy efficient.
Binuclear coordination compounds - double complex compounds - with organic and inorganic ligands are promising precursors of various functional materials and nanocomposites [1].
Materials and methods Lanthanide (III) chlorides or nitrates (LnCl3·6H2O, Ln(NO3)3·6H2O), ε-caprolactam (ε C6H11NO, Cpl), nicotinic acid (C5H5NCOO, Hnic) in commercially available forms and potassium hexa (isothiocyanate) chromate (III) K3[Cr(NCS)6]·4H2O, produced by the reacting of KNCS и KCr(SO4)2·12H2O in the hydroalcoholic solution [7,8] are used as the feedstock.
Peresypkina (Nikolaev Institute of Inorganic Chemistry, Siberian Branch, Russian Academy of Science) for they help to X-ray investigations.