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Online since: July 2011
Authors: Dong Xue Xiao, Shu Ping Liu, Yong Fa Diao, Wei Li Hou
In this paper, the applications of Inorganic Ceramic Materials in water pollution control technology and air pollution purification, and the problems under implementing Inorganic Ceramic Materials are pointed out; meanwhile a trend analysis of ceramic materials is proposed.
Introduction The research of ceramic materials was carried on from the 1940s.
Inorganic Ceramic Materials There are many sophisticated preparation methods for ceramic materials, depending on the requirements to material, thickness, structure, aperture radius, porosity of the application process.
The application of inorganic ceramic materials in membrane bioreactor (MBR).
[2] Nanping Xu, Weihong Xing and Pei Wang: Journal of Membrane Science and Technology Vol.20(2005),p23-27,in Chinese
Introduction The research of ceramic materials was carried on from the 1940s.
Inorganic Ceramic Materials There are many sophisticated preparation methods for ceramic materials, depending on the requirements to material, thickness, structure, aperture radius, porosity of the application process.
The application of inorganic ceramic materials in membrane bioreactor (MBR).
[2] Nanping Xu, Weihong Xing and Pei Wang: Journal of Membrane Science and Technology Vol.20(2005),p23-27,in Chinese
Online since: December 2022
Authors: Ziadoon M.R. Al-Hadrayi, Ahmed Naif Al-Khazraji, Ahmed Adnan Shandookh
Journal 32 (2014)
IOP Conference Series: Materials Science and Engineering.
Journal of the Mechanical Behavior of Biomedical Materials 103 (2020): 103590
Materials Characterization 179 (2021): 111350
Journal of the mechanical behavior of biomedical materials 70 (2017): 7-16
IOP Conference Series: Materials Science and Engineering.
Journal of the Mechanical Behavior of Biomedical Materials 103 (2020): 103590
Materials Characterization 179 (2021): 111350
Journal of the mechanical behavior of biomedical materials 70 (2017): 7-16
Online since: March 2013
Authors: Mohamad Rusop, Khaulah Sulaiman, Zurianti A. Rahman, Ahmad Shuhaimi Abu Bakar
Rahman1,2,a, Khaulah Sulaiman1,b, Mohamad Rusop3,c
and Ahmad Shuhaimi1
1Low Dimension Materials Research Centre, University of Malaya, 50603, Kuala Lumpur, Malaysia
2Faculty of Applied Sciences, Universiti Teknologi MARA, 40450, Shah Alam, Selangor, Malaysia
3NANO-SciTech Centre, Institute Of Science, Universiti Teknologi MARA, 40450, Shah Alam, Selangor, Malaysia.
Xu, Free-Standing PEDOT-PSS/Ca3Co4O9 Composite Films as Novel Thermoelectric Materials, Journal of Electronic Materials 40 (2011) 948-952
Koenig, Markus Winkler, Harald Boettner, Organic Semiconductors for Thermoelectric Applications, Journal Of Electronic Materials 39 (2010) 1589-1592
Katz, F.Fang and R.l.Opila, Promising Thermoelectric Properties of Commercial PEDOT:PSS Materials and Their Bi2Te3 Powder Composites, Applied Materials and Interfaces 2 (2010) 3170-3178
Peng, The thermoelectric performance of Poly(3,4-ethylenedioxythiphene)/Poly(4-styrenesulfonate) thin films, Journal Of Electronic Materials 38 (2009) 1182-1188
Xu, Free-Standing PEDOT-PSS/Ca3Co4O9 Composite Films as Novel Thermoelectric Materials, Journal of Electronic Materials 40 (2011) 948-952
Koenig, Markus Winkler, Harald Boettner, Organic Semiconductors for Thermoelectric Applications, Journal Of Electronic Materials 39 (2010) 1589-1592
Katz, F.Fang and R.l.Opila, Promising Thermoelectric Properties of Commercial PEDOT:PSS Materials and Their Bi2Te3 Powder Composites, Applied Materials and Interfaces 2 (2010) 3170-3178
Peng, The thermoelectric performance of Poly(3,4-ethylenedioxythiphene)/Poly(4-styrenesulfonate) thin films, Journal Of Electronic Materials 38 (2009) 1182-1188
Online since: August 2014
Authors: J. Temuujin, A. Minjigmaa, U. Bayarzul, Ts. Zolzaya, B. Davaabal, J. Amgalan
Fundamentals of Geopolymers and Related Alkali Activated Materials
J.Temuujin, A.Minjigmaa, U.Bayarzul, Ts.Zolzaya, B.Davaabal, J.Amgalan
Institute of Chemistry and Chemical Technology, Mongolian Academy of Sciences
Ulaanbaatar 51, Mongolia
Keywords: Geopolymer binder, alkali-activated materials, coal combustion by products,
Abstract.With the increasing rate of depletion of natural raw materials for production of building materials, their sustainable usage is clearly an important topic for consideration.
Therefore, the development of new, sustainable, low carbon footprint construction materials is an important task for materials scientists and civil engineers.
Preparation of alkali activated materials from pond ashes.
Journal of Materials Science, 42 (2007) 2917–33
, Construction and Building Materials, 30 (2012) 400–05 [6] J.Davidovits and Sawyer, US Patent 4,509,985 [7] J.Davidovits, Geopolymers: Inorganic polymeric new materials, Journal of thermal analysis, 37 (1991) 1633-1656 [8] V.Glukhovskii, “Soil silicates”, Gosstroiizdat, 1959.
Therefore, the development of new, sustainable, low carbon footprint construction materials is an important task for materials scientists and civil engineers.
Preparation of alkali activated materials from pond ashes.
Journal of Materials Science, 42 (2007) 2917–33
, Construction and Building Materials, 30 (2012) 400–05 [6] J.Davidovits and Sawyer, US Patent 4,509,985 [7] J.Davidovits, Geopolymers: Inorganic polymeric new materials, Journal of thermal analysis, 37 (1991) 1633-1656 [8] V.Glukhovskii, “Soil silicates”, Gosstroiizdat, 1959.
Online since: July 2014
Authors: Swamy R. Narayana, Prabhu K. Narayan
The use of thermal interface materials reduced the contact resistance between the hot source and cold sink materials.
The factors considered in ANOVA are materials in contact, load and interface materials.
Seetharaamu: ASEAN Journal of Science and Technology for Development ,18 (2001) p. 15
Wu, Experimental Thermal and Fluid Science, 25 (2001) p. 349
Dusel: Applied Surface Science, 246 (2004) p. 290.
The factors considered in ANOVA are materials in contact, load and interface materials.
Seetharaamu: ASEAN Journal of Science and Technology for Development ,18 (2001) p. 15
Wu, Experimental Thermal and Fluid Science, 25 (2001) p. 349
Dusel: Applied Surface Science, 246 (2004) p. 290.
Online since: March 2012
Authors: You Qiang Wang, Li Jing Zhang
The category of materials used in water-lubricated bearings was briefly outlined and tribological characteristics of most of the materials were compared in the paper.
In this paper the category of materials used in water-lubricated bearings was briefly outlined and tribological characteristics of most of the materials were compared.
Defects of Traditional Bearing Materials There are many types of journal bearing liner materials [3] such as lignumvitae, textolite, rubber, plastomer, ceramic, graphite, steel and alloy etc.
The nonmetal materials of all listed above are the most appropriate and popular materials used in water-lubricated bearings.
[5] X.J.Hua, J.X.Wang et al: Journal of Advanced Manufacturing Systems.
In this paper the category of materials used in water-lubricated bearings was briefly outlined and tribological characteristics of most of the materials were compared.
Defects of Traditional Bearing Materials There are many types of journal bearing liner materials [3] such as lignumvitae, textolite, rubber, plastomer, ceramic, graphite, steel and alloy etc.
The nonmetal materials of all listed above are the most appropriate and popular materials used in water-lubricated bearings.
[5] X.J.Hua, J.X.Wang et al: Journal of Advanced Manufacturing Systems.
Online since: October 2014
Authors: Qi Zhao Wang, Na Dong, Yong Chun Tong, Bi Tao Su
Effect of the catalyst type on the morphology of PSB nanostructural materials.
Acknowledgements We thank the key laboratory of Eco-Environment Related Polymer Materials (Northwest Normal University), Ministry of Education of China, the Natural Science of Gansu Province (No. 1010RJZA184), and Natural Science Foundation of China (No.20963008).
Materials Research Bulletin, 40, 383-393 (2005)
Materials Research Bulletin, 39, 1569-1580 (2004)
Science, 298, 2176-2179 (2002)
Acknowledgements We thank the key laboratory of Eco-Environment Related Polymer Materials (Northwest Normal University), Ministry of Education of China, the Natural Science of Gansu Province (No. 1010RJZA184), and Natural Science Foundation of China (No.20963008).
Materials Research Bulletin, 40, 383-393 (2005)
Materials Research Bulletin, 39, 1569-1580 (2004)
Science, 298, 2176-2179 (2002)
Online since: February 2013
Authors: Xiao Bin Wang, Qing Jun Wang, Zhou Su
This article through to the emergency materials distribution of risk analysis, understanding of emergency materials distribution risk comes from where, and its risk control.
Natural Science Journal, 2004
The risk on emergency materials logistics system for large-scale disaster.
Science & Technology Review, 2005
Chongqing University Journal (Science Session), 2004, p. 27(3)
Natural Science Journal, 2004
The risk on emergency materials logistics system for large-scale disaster.
Science & Technology Review, 2005
Chongqing University Journal (Science Session), 2004, p. 27(3)
Online since: July 2005
Authors: Hong Yan, Juchen Xei
China
2
State Key Laboratory of Die Technology, HuaZhong University of Science and Technology,
Wuhan, 430074, P.R.
The mechanical model of the semi-solid materials was treated as that of the continuous porous materials in the high solid volume fraction.
Theoretical method of upper bound analysis of plastic forming process for semi-solid material The derivation of the upper bound theory for semi-solid metals presented in this paper is based on a general solution for solid materials.
Acknowledgement This research was supported jointly by grant # 0350005 from JiangXi province natural science fund and grant #04-8 from State Key Laboratory fund of Plastic Forming Simulation and Die Technology at HuaZhong University of Science and Technology.
References [1] Spencer D B, Mehrabia R, Flemings M C.: "Rheological behavior of Sn-15Pb in the crystallization range", Metallurgical Transactions, Vol.3 (1972), p.1925-1932 [2] Xie Shuisheng and Huang Shenghong, Technology and application of semisolid forming, (Metallurgical Industry Press, 1999) [3] Luo Shou-jing and Tian wentong: "Research development of semi-solid metal plastic working mechanics", Journal of harbin institute of technology, Vol.32, No.5 (2000), p.78-80 [4] Yan Hong, Xei Ju-chen, Hu Guo-an, et al: "Mechanics model of plastic forming of semi-solid metal", The Chinese Journal of Nonferrous Metals, Vol.12 (S2) (2002), p.136-139 [5] Wang Ping, Lu Guimin, Cui Jianzhong: "Upper Bound Solution of Thixoforming Force of A356", Chinese Journal of Applied Mechanics, Vol.19, No.3 (2002), p.140-143
The mechanical model of the semi-solid materials was treated as that of the continuous porous materials in the high solid volume fraction.
Theoretical method of upper bound analysis of plastic forming process for semi-solid material The derivation of the upper bound theory for semi-solid metals presented in this paper is based on a general solution for solid materials.
Acknowledgement This research was supported jointly by grant # 0350005 from JiangXi province natural science fund and grant #04-8 from State Key Laboratory fund of Plastic Forming Simulation and Die Technology at HuaZhong University of Science and Technology.
References [1] Spencer D B, Mehrabia R, Flemings M C.: "Rheological behavior of Sn-15Pb in the crystallization range", Metallurgical Transactions, Vol.3 (1972), p.1925-1932 [2] Xie Shuisheng and Huang Shenghong, Technology and application of semisolid forming, (Metallurgical Industry Press, 1999) [3] Luo Shou-jing and Tian wentong: "Research development of semi-solid metal plastic working mechanics", Journal of harbin institute of technology, Vol.32, No.5 (2000), p.78-80 [4] Yan Hong, Xei Ju-chen, Hu Guo-an, et al: "Mechanics model of plastic forming of semi-solid metal", The Chinese Journal of Nonferrous Metals, Vol.12 (S2) (2002), p.136-139 [5] Wang Ping, Lu Guimin, Cui Jianzhong: "Upper Bound Solution of Thixoforming Force of A356", Chinese Journal of Applied Mechanics, Vol.19, No.3 (2002), p.140-143
Online since: August 2014
Authors: Ming Gao, Chun Guang Song, Sheng Guang Zhao, Yong Li Yang
Experimental
Materials
Chitosan (>90%, Zhejiang Golden-shell Biochemical Co., Ltd.
Results and Discussion Performance comparison of different materials on the adsorption of Cu2+ Table 1 shows the Al-CTS composite, chitosan, Al2O3 and Al+CTS mixed materials, four kinds of materials at room temperature, the adsorption properties of Cu2+ solution whose concentration is 2.5×10-3mol·L-1.
Journal of Applied Polymer Science, 2002, 84, 1185-1192
Journal of Haz-ardous Materials, 2002, 90(1): 77-95
Journal of Applied Poly- mer Science, 2002, 84(6): 1185-1192.
Results and Discussion Performance comparison of different materials on the adsorption of Cu2+ Table 1 shows the Al-CTS composite, chitosan, Al2O3 and Al+CTS mixed materials, four kinds of materials at room temperature, the adsorption properties of Cu2+ solution whose concentration is 2.5×10-3mol·L-1.
Journal of Applied Polymer Science, 2002, 84, 1185-1192
Journal of Haz-ardous Materials, 2002, 90(1): 77-95
Journal of Applied Poly- mer Science, 2002, 84(6): 1185-1192.