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Online since: October 2007
Authors: Cong Fa Zhang, Wei Cao, Tong Xiang Fan, Di Zhang
Introduction
Magnesium and its alloys owing to their attractive physical properties have been potential
candidates for light-weight structural materials [1].
Experimental Procedure The commercial pure magnesium and pure aluminum are employed as the base material.
The result of stirring is not good, some amount of AlN clusters are exhibited within the material; additionally the size of Mg2Si particles is big about more than 50μm.
Zhong: Journal of University of Science and Technology Beijing, 23(1)(2001), p38
Yang: Master Degree, University of Science and Technology Beijing, (2000)
Experimental Procedure The commercial pure magnesium and pure aluminum are employed as the base material.
The result of stirring is not good, some amount of AlN clusters are exhibited within the material; additionally the size of Mg2Si particles is big about more than 50μm.
Zhong: Journal of University of Science and Technology Beijing, 23(1)(2001), p38
Yang: Master Degree, University of Science and Technology Beijing, (2000)
Online since: April 2009
Authors: Xiao Yan Lin, Xue Gang Luo, Qiang Wu, Yan Chen
Synthesis and Thermal Properties of Etherified Konjac Glucomannan
Wu Qiang
a, Lin Xiaoyanb, Luo Xuegangc, Chen Yand
School of Material Science and Engineering, Southwest university of Science and
Technology, Mianyang, Sichuan, China
a
awutong@126.com, bxylinchwei2005@yahoo.com.cn,
clxg@swust.edu.cn, dcopte@163.com
Keywords: Konjac glucomannan; 1-Bromopropane; Thermal properties; Etherification
Abstract.
Experimental Materials The KGM sample was donated by Mianyang Konjac Co.
The EKGM was thermoplastic material.
Nishinari: Developments in Food Science Vol. 41(2000), p. 309
Shibata: European polymer Journal Vol. 38(2002), p. 1365.
Experimental Materials The KGM sample was donated by Mianyang Konjac Co.
The EKGM was thermoplastic material.
Nishinari: Developments in Food Science Vol. 41(2000), p. 309
Shibata: European polymer Journal Vol. 38(2002), p. 1365.
Online since: December 2012
Authors: Hong Lu, Jing Wang, Guang Fei Liu
Azo Dyes Biodegradation Based on Silicone Membrane-Aerated Bioreactor
Jing Wang* a, Hong Lu, Guangfei Liu
School of Environmental Science and Technology, Dalian University of Technology, Dalian, China
aemail: jwang@dlut.edu.cn
Keywords: Membrane-aerated bioreactor; Azo dyes; Biodegradation; Auto-oxidation.
Materials and methods Chemicals.
Acknowledgements The authors gratefully acknowledge the financial support from National Natural Science Foundation of China (No. 50978040; 210 77021).
Field, Water Science and Technology.
Zhou, Journal of Hazardous Materials.
Materials and methods Chemicals.
Acknowledgements The authors gratefully acknowledge the financial support from National Natural Science Foundation of China (No. 50978040; 210 77021).
Field, Water Science and Technology.
Zhou, Journal of Hazardous Materials.
Online since: November 2014
Authors: Lu Mei Qin, Yan Peng Liang, Hong Hu Zeng
Development of Water Quality Criteria
In order to protect the water environment, various countries had invested a lot of manpower and material resources to carry out WQC study systematically.
Research of Environmental Sciences, 10(2010)1221-1228
Asian Journal of Ecotoxicology, 66 (2011)617-628
South-to North Water Transfers and Water Science & Technology, 105(2012)108-113
Chinese Journal of Pesticide Science, 155(2013)479-489
Research of Environmental Sciences, 10(2010)1221-1228
Asian Journal of Ecotoxicology, 66 (2011)617-628
South-to North Water Transfers and Water Science & Technology, 105(2012)108-113
Chinese Journal of Pesticide Science, 155(2013)479-489
Online since: September 2013
Authors: Zhen Li, Gang Chen, Zhao Fang Du, Wei Min Song
,Ltd, Hebei Langfang 065001
Author: Chen Gang(1966—),male,association professor,MSLA,research direction includes new textile materials and the application of new technology.
Sichuan Textile Science & Technology, 2004 (4):20-22
Journal of I-laz "ardous Malerials, 2007,142 (3) :765 -770
Beijing: Science Press, 1993
Progress in Polymer Science,1999,24(2):221-274.
Sichuan Textile Science & Technology, 2004 (4):20-22
Journal of I-laz "ardous Malerials, 2007,142 (3) :765 -770
Beijing: Science Press, 1993
Progress in Polymer Science,1999,24(2):221-274.
Online since: July 2013
Authors: Jian Gang Niu, Jian Bao, Yao Zhong Guo
The test material and mixing ratio
Test material.
Coarse aggregate: The lytag which is produced in Baotou Jingzheng building materials company.
Material is modified polypropylene, and the fiber length is 38 mm.
In order to avoid the interference with the mechanical properties of lightweight aggregate concrete and the fiber enhanced rule which is caused by admixture and mineral powder, this test is not mixed with admixture and mineral powder materials.
Acknowledgements This study is sponsored by the National Natural Science Foundation for Scholar (50908112) and Natural Science Foundation of Inner Mongolia (2010BS0710) and the Innovation Foundation of Inner Mongolia University of Science & Technology(2009NC036).
Coarse aggregate: The lytag which is produced in Baotou Jingzheng building materials company.
Material is modified polypropylene, and the fiber length is 38 mm.
In order to avoid the interference with the mechanical properties of lightweight aggregate concrete and the fiber enhanced rule which is caused by admixture and mineral powder, this test is not mixed with admixture and mineral powder materials.
Acknowledgements This study is sponsored by the National Natural Science Foundation for Scholar (50908112) and Natural Science Foundation of Inner Mongolia (2010BS0710) and the Innovation Foundation of Inner Mongolia University of Science & Technology(2009NC036).
Online since: October 2011
Authors: Xu Ya Peng, Guo Tao Liu, Zhen Zhang
Materials and Methods
1 Leachate tank
2 Leachate collection pipe
3 Leachate collection layer
4 Gas collection well
5 Gas collection pipe
6 Distribution layer
7 Distributor
8 Decirculation water tank
9 Sampling ports
10 Gas sampling point
Fig. 1 Schematic diagram of experimental setup
Experimental Setup.
The leachate collection pipe was covered with porous materials and the structure of the leachate collection layer of each column is shown in Table 1.
Structure of leachate collection layer Weight of waste [kg] Density of waste [kg/m3] Materials diameter [mm] Thickness [cm] 1# Gravel 15-30 6 201 711.3 2# Gravel 15-30 12 203 718.3 3# Gravel 15-30 18 199 704.2 4# Gravel 15-30 24 201 711.3 5# Cobblestone 40-50 18 197 679.1 6# Upper Ceramsite 8 6 198 700.6 Lower Gravel 15-30 18 Experimental Materials.
Wang, Numerical Simulation of the Diffusion of Oxygen in Semi-Aerobic Landfills, Research of Environmental Sciences, 21 (2008) 16-20.
Wang, Spatial variability of temperature in semi-aerobic landfilling structure, Chinese Journal of Applied Ecology, 17 (2006) 1291-1294.
The leachate collection pipe was covered with porous materials and the structure of the leachate collection layer of each column is shown in Table 1.
Structure of leachate collection layer Weight of waste [kg] Density of waste [kg/m3] Materials diameter [mm] Thickness [cm] 1# Gravel 15-30 6 201 711.3 2# Gravel 15-30 12 203 718.3 3# Gravel 15-30 18 199 704.2 4# Gravel 15-30 24 201 711.3 5# Cobblestone 40-50 18 197 679.1 6# Upper Ceramsite 8 6 198 700.6 Lower Gravel 15-30 18 Experimental Materials.
Wang, Numerical Simulation of the Diffusion of Oxygen in Semi-Aerobic Landfills, Research of Environmental Sciences, 21 (2008) 16-20.
Wang, Spatial variability of temperature in semi-aerobic landfilling structure, Chinese Journal of Applied Ecology, 17 (2006) 1291-1294.
Online since: August 2013
Authors: Jin Li, Hao Ling, Jian Hua Li, Yong Tian Zhu
Though research on vehicle scheduling optimization of hazardous materials can prevent and reduce risk in the transportation process [3], we have no specific guide for loss cut after a disaster.
Zhu, "Vehicle scheduling problem of hazardous materials based on risk," in Automation and Logistics, 2009.
Cheng, "Transportation Hazard Analysis in Integrated GIS Environment," Journal of Transportation Engineering, vol. 119, pp. 239-254, 1993
Abkowitz, "Development of a GIS-based Spill Management Information System," Journal of Hazardous Materials, vol. 112, pp. 239-252, 2004
Androutsopoulos, "A decision support system for integrated hazardous materials routing and emergency response decisions," Transportation Research Part C: Emerging Technologies, vol. 16, pp. 684-703, 2008
Zhu, "Vehicle scheduling problem of hazardous materials based on risk," in Automation and Logistics, 2009.
Cheng, "Transportation Hazard Analysis in Integrated GIS Environment," Journal of Transportation Engineering, vol. 119, pp. 239-254, 1993
Abkowitz, "Development of a GIS-based Spill Management Information System," Journal of Hazardous Materials, vol. 112, pp. 239-252, 2004
Androutsopoulos, "A decision support system for integrated hazardous materials routing and emergency response decisions," Transportation Research Part C: Emerging Technologies, vol. 16, pp. 684-703, 2008
Online since: February 2011
Authors: Feng Guo, Rong Ming Liu, Peng Fei Li
Influence of Voltage Parameters on Formation Process of MAO Ceramic Coating on Aluminum Alloy
Feng Guo 1, a, Rongming Liu 1, b, Pengfei Li 1, c
1School of Material Science and Engineering, Inner Mongolia University of Technology, Huhhot 010051, PRC
aguofengnmg@sina.com, bafmlab@139.com,cli_pf@imut.edu.cn
Keywords: Micro- Arc Oxidation; Aluminum Alloy; Ceramic Coating; Voltage Parameter
Abstract.
Experimental procedures Materials preparation.
Mamaev “Microplasma systems for creating coatings on aluminium alloys” Materials Letters, Vol. 57, Issue 11, 1748-1751,March 2003 [6]A.
“Mechanism of Anodic Spark Deposition” American Ceramic Society Bulletin, Vol. 56, Issue 6, 563-566,1977 [9]Zhenduo Guan, Zhongtai Zhang, Jinsheng Jiao “Physical preformance of inorganic material” Tsinghua University Press in Bei Jing, 335-345, 1992 (In Chinese) [10]Xiuchen Liu, Chengqiang An, Zuoxing Cui “Science of metal corrosion” National Defense Industry Press in Bei Jing, 273-281, 2002 (In Chinese) [11]Wenbin Xue, Zhiwei Deng “Analysis of phase distribution for ceramic coatings formed by micro-arc oxidation on aluminum alloy” Journal of the American Ceramic Society, Vol. 18, Issue 5, 1365-1368, 1998 [12]S.V Gnedenkov, O.A Khrisanfova, A.G Zavidnaya, S.L Sinebrukhov, P.S Gordienko, S Iwatsubo, A Matsui “Composition and Adhesion of Protective Coatings on Aluminum” Surface and Coatings Technology, Vol. 145, Issues 1-3, 1, 146-151, August 2001 [13]É.
Kamyshanskii “Formation of structure and properties of coatings deposited by micro-arc oxidizing on parts fabricated from aluminum alloys” Metal Science and Heat Treatment, Vol.42, Number 10, 411-415, 2000
Experimental procedures Materials preparation.
Mamaev “Microplasma systems for creating coatings on aluminium alloys” Materials Letters, Vol. 57, Issue 11, 1748-1751,March 2003 [6]A.
“Mechanism of Anodic Spark Deposition” American Ceramic Society Bulletin, Vol. 56, Issue 6, 563-566,1977 [9]Zhenduo Guan, Zhongtai Zhang, Jinsheng Jiao “Physical preformance of inorganic material” Tsinghua University Press in Bei Jing, 335-345, 1992 (In Chinese) [10]Xiuchen Liu, Chengqiang An, Zuoxing Cui “Science of metal corrosion” National Defense Industry Press in Bei Jing, 273-281, 2002 (In Chinese) [11]Wenbin Xue, Zhiwei Deng “Analysis of phase distribution for ceramic coatings formed by micro-arc oxidation on aluminum alloy” Journal of the American Ceramic Society, Vol. 18, Issue 5, 1365-1368, 1998 [12]S.V Gnedenkov, O.A Khrisanfova, A.G Zavidnaya, S.L Sinebrukhov, P.S Gordienko, S Iwatsubo, A Matsui “Composition and Adhesion of Protective Coatings on Aluminum” Surface and Coatings Technology, Vol. 145, Issues 1-3, 1, 146-151, August 2001 [13]É.
Kamyshanskii “Formation of structure and properties of coatings deposited by micro-arc oxidizing on parts fabricated from aluminum alloys” Metal Science and Heat Treatment, Vol.42, Number 10, 411-415, 2000