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Online since: August 2013
Authors: Alica Bartošová, Janka Ševčíková, Maroš Soldán
CrVI adsorption using black nickel mud as adsorbent
Maroš Soldán1, Alica Bartošová1, Janka Ševčíková1
1Faculty of Materials Science and Technology, Slovak University of Technology, Paulínska 16, 917 24 Trnava, Slovak Republic, e-mail: maros.soldan@stuba.sk
Keywords: black nickel mud, adsorption, chromium.
References [1] SHAOBIN WANG - ANG, H.M. - TADÉ, M.O.: Chemosphere 72, 11, 2008, str. 1621-1635 [2] BRUNORI, C. - CREMESINI, C.- MASSANISSO, P.- PINTO, V.- TORRICELLI, L.: Journal of Hazardous Materials 117, 1, 2005, str. 55-63 [3] SOLDÁN, M. - ČAPLOVIČ, Ľ. – SOLDÁNOVÁ, Z. - BALOG, K.: Mineral resources and environment: International conference.
References [1] SHAOBIN WANG - ANG, H.M. - TADÉ, M.O.: Chemosphere 72, 11, 2008, str. 1621-1635 [2] BRUNORI, C. - CREMESINI, C.- MASSANISSO, P.- PINTO, V.- TORRICELLI, L.: Journal of Hazardous Materials 117, 1, 2005, str. 55-63 [3] SOLDÁN, M. - ČAPLOVIČ, Ľ. – SOLDÁNOVÁ, Z. - BALOG, K.: Mineral resources and environment: International conference.
Online since: March 2013
Authors: G. Murali, D. Amaranatha Reddy, R. Venugopal, Vijayalakshmi Raguru
[7] Ping Yang, Mengkai Lu , Dong Xu, Duorong Yuan, Chunfeng Song, Suwen Liu, Xiufeng Cheng, Luminescence characteristics of ZnS nanoparticles co-doped with Ni2+ and Mn2+, Optical Materials 24 (2003) 497–502
Kulkarni, Luminescence quenching in ZnS nanoparticles due to Fe and Ni doping, JOURNAL OF MATERIALS SCIENCE 34 (1999) 6087 – 6093 [9] Hoax Tang, Guoyue Xu, Luqian Weng, Lijia Pan, Ling Wang, Luminescence and photophysical properties of colloidal ZnS nanoparticles, Acta Mater. 52(2004)1489- 1494.
Kulkarni, Luminescence quenching in ZnS nanoparticles due to Fe and Ni doping, JOURNAL OF MATERIALS SCIENCE 34 (1999) 6087 – 6093 [9] Hoax Tang, Guoyue Xu, Luqian Weng, Lijia Pan, Ling Wang, Luminescence and photophysical properties of colloidal ZnS nanoparticles, Acta Mater. 52(2004)1489- 1494.
Online since: September 2011
Authors: Liu Min, Jun Ying Tian, Mei Yan Liu
But wool raw materials can not meet the demand of textile industry, wool fiber production is influenced by many factors such as geographic conditions.
Materials and test Polyester plain fabric.
Production technology of polyester wool-like fabric[J].Shanghai textile science and technology,1993 (2 :50—53
China Textile Leader.2009,(1):77~80 [5] Matsudaira Mitsuo,Matsui Masao,Changes in the Mechanical Properties and Fabric Handle of Polyester-fibre Fabrics Through the Finishing Stages[J],Journal of the Textile Institute,1992,83(1):144-155 [6] Sheth Geeta N., Musale Aparna A.
Materials and test Polyester plain fabric.
Production technology of polyester wool-like fabric[J].Shanghai textile science and technology,1993 (2 :50—53
China Textile Leader.2009,(1):77~80 [5] Matsudaira Mitsuo,Matsui Masao,Changes in the Mechanical Properties and Fabric Handle of Polyester-fibre Fabrics Through the Finishing Stages[J],Journal of the Textile Institute,1992,83(1):144-155 [6] Sheth Geeta N., Musale Aparna A.
Online since: August 2011
Authors: Zhi Xiong Huang, De Liang Jin, Yong Zhou
Effect of Coupling Agent Modify Filler on the Electrical Properties of Sheet Molding Compounds
De-liang Jin 1, a*, Zhi-xiong Huang 1, band Yong Zhong1, c
1School of Materials Science and Engineering, Wuhan University of Technology, Wuhan, 430070
athkjdl@yahoo.com.cn, bzhixiongh@whut.edu.cn, c258754716@qq.com ,* correspondence author
Keywords: sheet molding compound; coupling agent; filler; dielectric properties
Abstract.
After deposited at 32 ℃ for 24h, SMC molded material were obtained.
At last, SMC molded material was pressured at the compression pressure of 5Mpa, for 15s at 145℃ [5].
Vol. 62 (2002), p. 571-577 [4] W SUN, J H WANG, X S ZHENG: JOURNAL WUHAN UNIV TECHNOLOGY Vol. 30 (2008), p. 32-35 [5] P CHENG, S P LIU, M Y ZHANG: ACTA POLYM SIN Vol. 4 (1997), p. 492-495 [6] Young Ik Seo, Young Jung Lee, Dae-Gun Kim: Appl.
After deposited at 32 ℃ for 24h, SMC molded material were obtained.
At last, SMC molded material was pressured at the compression pressure of 5Mpa, for 15s at 145℃ [5].
Vol. 62 (2002), p. 571-577 [4] W SUN, J H WANG, X S ZHENG: JOURNAL WUHAN UNIV TECHNOLOGY Vol. 30 (2008), p. 32-35 [5] P CHENG, S P LIU, M Y ZHANG: ACTA POLYM SIN Vol. 4 (1997), p. 492-495 [6] Young Ik Seo, Young Jung Lee, Dae-Gun Kim: Appl.
Online since: December 2012
Authors: Lu Cheng Ji, Bo Jin, Jun Zhang
Considering the processes, materials, energy sources and efficiency of existing hydrogen production technologies, except using the renewable energy sources, the other technologies directly or indirectly give off a large amount of carbon dioxide or pollutants.
But they are seldom used as fuel, but the materials for manufacture of fertilizers (50%), oil refining (35%) and methanol (8%).
For hydrogen production, the physical and chemical properties of hydrogen determine that the energy needed for hydrogen production is always more than the energy it releases no matter what kind of methods and materials are used.
As a result, in order to obtain sufficient quantities of hydrogen, there must be abundant and cheap primary energy sources to meet the need of production and be used as materials.
Coal and natural gas are ideal materials for hydrogen production, but the technologies are complex and will emit greenhouse gases.
But they are seldom used as fuel, but the materials for manufacture of fertilizers (50%), oil refining (35%) and methanol (8%).
For hydrogen production, the physical and chemical properties of hydrogen determine that the energy needed for hydrogen production is always more than the energy it releases no matter what kind of methods and materials are used.
As a result, in order to obtain sufficient quantities of hydrogen, there must be abundant and cheap primary energy sources to meet the need of production and be used as materials.
Coal and natural gas are ideal materials for hydrogen production, but the technologies are complex and will emit greenhouse gases.
Online since: December 2012
Authors: Li Feng Li, Alex Kwasi Kumi, Allan Chelashaw, Yu Mei Zhang
Alex Kwasi Kumi 1, a, Allan Chelashaw1, c, Yumei Zhang 1, b, Lifeng Li2, d
1State Key Laboratory for Modification of Chemical Fibers and Polymeric Materials, Donghua University, 2999 North Renmin Road, Shanghai, 201620, P.
Zeininger, Applied Surface Science, 256 (2009) S92-S95
Mechanical Properties Derived from Nanostructuring Materials, 2003, pp. 271-276
Bonhoure, N.Robert, F.Tessier, International Journal of Food Science and Technology, 45 (2010) 2494-2501
Cai, Applied Surface Science, 257 (2011) 5491-5498.
Zeininger, Applied Surface Science, 256 (2009) S92-S95
Mechanical Properties Derived from Nanostructuring Materials, 2003, pp. 271-276
Bonhoure, N.Robert, F.Tessier, International Journal of Food Science and Technology, 45 (2010) 2494-2501
Cai, Applied Surface Science, 257 (2011) 5491-5498.
Online since: December 2014
Authors: Xi Feng Yan, Feng Liu, Jing Lan Wang, You Hua Zhou
Radiation characteristics of the road on remote sensing is mainly affected by the material.
Trees and buildings and their shadows, the center of the road obstructions (such as green belt), vehicles, roads age difference, pavement materials, etc.
Acknowledgements This work was financially supported by Jiangxi Science and Technology Agency(20122BBG70080 ).
Science,1985,227:369~375
International Journal of Remote Sensing, 1987,8:1189 ~1207
Trees and buildings and their shadows, the center of the road obstructions (such as green belt), vehicles, roads age difference, pavement materials, etc.
Acknowledgements This work was financially supported by Jiangxi Science and Technology Agency(20122BBG70080 ).
Science,1985,227:369~375
International Journal of Remote Sensing, 1987,8:1189 ~1207
Online since: June 2011
Authors: Hong Hua Su, Wen Feng Ding, Yu Can Fu, Yan Chen, Jiu Hua Xu
The granite (Sichuan Red, G5113) was selected as the workpiece material and water was selected as the coolant.
Acknowledgements This research is supported by the Aeronautical Science Foundation of China (No.2008ZE52054), the Natural Science Foundation of Jiangsu Province in China (No.BK2008392), National Basic Research Program of China (No. 2009CB724403), as well by State Major Science and Technology Special Projects (No. 2009ZX04014-046).
Xiao, and Xu.J.H: Key Engineering Materials Vol.258-259(2004), p.6 [2] B.
Chen: Diamond and Related Materials Vol.8 (1996), p.1540 [5] H.H.
Fu, et al: Chinese Journal of Mechanical Engineering Vol.41 (2005), p.12
Acknowledgements This research is supported by the Aeronautical Science Foundation of China (No.2008ZE52054), the Natural Science Foundation of Jiangsu Province in China (No.BK2008392), National Basic Research Program of China (No. 2009CB724403), as well by State Major Science and Technology Special Projects (No. 2009ZX04014-046).
Xiao, and Xu.J.H: Key Engineering Materials Vol.258-259(2004), p.6 [2] B.
Chen: Diamond and Related Materials Vol.8 (1996), p.1540 [5] H.H.
Fu, et al: Chinese Journal of Mechanical Engineering Vol.41 (2005), p.12
Online since: February 2015
Authors: Yong Li Peng, Li Zeng
Study on the Phenolic - Epoxy Resin System
Yongli PENG1,a and Li ZENG1,b
1College of Materials Science and Technology, Wuhan Institute of Technology, Wuhan, Hubei Province 430073, China
aPYL68@163.com, b35951491@qq.com
Keywords: Phenolic resin, Epoxy resin, Blend, Modified
Abstract.
The 5wt% phenolic-epoxy, which has low viscosity, higher material service properties and excellent mechanical properties, forms gels quickly.
Acknowledgements This work was supported by Natural Science Foundation of China (Grant No. 21376182).
[3] Xiao Yan Zhang: 2012 International Conference on Materials Science and Nanotechnology (Guangzhou, China, November 16-18, 2012).
Unnikrishnan, Eby Thomas Thachil: International Journal Of Polymeric Materials, Vol. 55 (2006) No.7-9, p. 563-576
The 5wt% phenolic-epoxy, which has low viscosity, higher material service properties and excellent mechanical properties, forms gels quickly.
Acknowledgements This work was supported by Natural Science Foundation of China (Grant No. 21376182).
[3] Xiao Yan Zhang: 2012 International Conference on Materials Science and Nanotechnology (Guangzhou, China, November 16-18, 2012).
Unnikrishnan, Eby Thomas Thachil: International Journal Of Polymeric Materials, Vol. 55 (2006) No.7-9, p. 563-576
Online since: October 2014
Authors: Bei Bei Lv, Xi Liu, Tao Wu
Therefore the HSLC is a kind of good prospects for development of green building materials which has been widely used in high-rise buildings, public buildings, marine engineering, bridge engineering and other fields [4-6].
Constituent Materials and Test Procedure Constituent Materials.
Acknowledgements The authors gratefully acknowledge the support provided by the Research Fund for Natural Science Foundation of China (No. 51108032), Natural Science Foundation of Shanxi Province (No. 2012JM7011), Supported by Innovation team Foundation of Chang'an University (No. 2013 G 3282015).
“High-strength lightweight reinforced concrete structure-performance analysis and calculation [M],” Science Press, Beijing
“Mechanical of high-strength lightweight aggregates [J],” ACI Materials Journal, 1991, 88(3): 240-247.
Constituent Materials and Test Procedure Constituent Materials.
Acknowledgements The authors gratefully acknowledge the support provided by the Research Fund for Natural Science Foundation of China (No. 51108032), Natural Science Foundation of Shanxi Province (No. 2012JM7011), Supported by Innovation team Foundation of Chang'an University (No. 2013 G 3282015).
“High-strength lightweight reinforced concrete structure-performance analysis and calculation [M],” Science Press, Beijing
“Mechanical of high-strength lightweight aggregates [J],” ACI Materials Journal, 1991, 88(3): 240-247.