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Online since: May 2018
Authors: Oguzhan Gunduz, Nazmi Ekren, Faik Nüzhet Oktar, Osman Kilic, Cevriye Kalkandelen, Yunis Moukbil
From the five, 3 were pure materials: BHA, CSHA and Al2O3.
Fig. 1e shows the conductivity [ln(S/cm)] of the samples in which the composite materials exhibit a better insulating behaviour than that of the pure materials.
Therefore it is observed that the composite materials exhibit a much better insulating behaviour than the pure materials.
While the electrical values of the composite materials started at a lower value and like the pure materials show a logarithmic decrease with increase of frequency.
The composite materials exhibit better conductivity than pure materials.
Fig. 1e shows the conductivity [ln(S/cm)] of the samples in which the composite materials exhibit a better insulating behaviour than that of the pure materials.
Therefore it is observed that the composite materials exhibit a much better insulating behaviour than the pure materials.
While the electrical values of the composite materials started at a lower value and like the pure materials show a logarithmic decrease with increase of frequency.
The composite materials exhibit better conductivity than pure materials.
Online since: August 2019
Authors: Bheemappa Suresha, S.M. Darshan
Shah, Developing plant fiber composites for structural applications by optimising composite parameters: a critical review, Journal of Material Science. 48 (2013) 6083–107
Materials & Design. 31 (2010) 1833-1841
Akonda, Impact property of PLA/Flax nonwoven biocomposite, Conference Papers in Materials Science. 13 (2013) 1-6
Mishra, Processing and properties of natural fiber-reinforced polymer composite, Journal of Materials. 8 (2013) 1-6
Ansell, Straw-reinforced polyester composites, Journal of Materials Science. 18 (1983) 1549-1556
Materials & Design. 31 (2010) 1833-1841
Akonda, Impact property of PLA/Flax nonwoven biocomposite, Conference Papers in Materials Science. 13 (2013) 1-6
Mishra, Processing and properties of natural fiber-reinforced polymer composite, Journal of Materials. 8 (2013) 1-6
Ansell, Straw-reinforced polyester composites, Journal of Materials Science. 18 (1983) 1549-1556
Online since: January 2009
Authors: Zhi Qiang Gao, Li Xin Ling, Zhong Rong Song, Han Tao
The results showed that the composite
microspheres were irregular porous materials and their average diameter was 2.18 mm.
In this paper, using quartz particles as pore-forming agent, sodium silicate as raw materials, macroporous silica microspheres with 0.1-5 mm cores were made by coprecipitation method.
TiO2 film/macroporous silica microspheres composite materials have been manufactured, which have big specific surface area and good photocatalysis properties. 2.
Journal of the Chinese Ceramic Society 2006, 34(1). 107-113
Journal of Yunnan University(Natural Sciences Edition2005, 27(3). 86-88
In this paper, using quartz particles as pore-forming agent, sodium silicate as raw materials, macroporous silica microspheres with 0.1-5 mm cores were made by coprecipitation method.
TiO2 film/macroporous silica microspheres composite materials have been manufactured, which have big specific surface area and good photocatalysis properties. 2.
Journal of the Chinese Ceramic Society 2006, 34(1). 107-113
Journal of Yunnan University(Natural Sciences Edition2005, 27(3). 86-88
Online since: December 2012
Authors: Rui Guo, Bing Zhang, Wen Xi Zhang
Density, Electrical Conductivity and Viscosity of Low Melting Baths for Aluminum Electrolysis [A].Light Metals [C].Warrendale: Minerals,Metals &Materials Society,1996. 227-232
Kumar.Solubility and Thermodynamic Properties of Y2O3 in LiF-YF3 Melts [J],Metallurgical and Materials Transactions B,1994,25B (2):91-96
[6] Wang L M,Alton T T,Nolan E R.The electrical conductivity of cryolitic melts containing aluminum carbide[A],Light Metals 1994[C],Warrendale:Minerals,Metals&Materials Soc,1994.177-185
Electrical conductivity of molten cryolite-based mixtures obtained with a tube-type cell made of pyrolytic boron nitride[J],Metallurgical and Materials Transactions, 1996,27B(4):255-261
[10]Wang Zhao-wen,Hu Xian-wei,Gao Bing-liang,et al.Application of measuring electrical conductivity of cryolite-based melts by CVCC technique[J].Journal of NortheasternUniversity:Natural Science,2006,27(7):786-789 [11] Gao X X.Electroanalysing chemistry introduction[M].Beijing: Science Press, 2006.22
Kumar.Solubility and Thermodynamic Properties of Y2O3 in LiF-YF3 Melts [J],Metallurgical and Materials Transactions B,1994,25B (2):91-96
[6] Wang L M,Alton T T,Nolan E R.The electrical conductivity of cryolitic melts containing aluminum carbide[A],Light Metals 1994[C],Warrendale:Minerals,Metals&Materials Soc,1994.177-185
Electrical conductivity of molten cryolite-based mixtures obtained with a tube-type cell made of pyrolytic boron nitride[J],Metallurgical and Materials Transactions, 1996,27B(4):255-261
[10]Wang Zhao-wen,Hu Xian-wei,Gao Bing-liang,et al.Application of measuring electrical conductivity of cryolite-based melts by CVCC technique[J].Journal of NortheasternUniversity:Natural Science,2006,27(7):786-789 [11] Gao X X.Electroanalysing chemistry introduction[M].Beijing: Science Press, 2006.22
Online since: January 2012
Authors: Xiao Yan Li, Zhi Fen Cen, Yan Yan Wu
Therefore, latent heat thermal storage technique is proposed to use in conventional central air-conditioning in which storage tank composed of containers filled with phase change material (PCM) and packed inside is added on condition that the PCM has been researched to fit to conventional air-conditioning working condition.
Zhang [6] presented a general model for analyzing the thermal characteristics of both heat charging and discharging processes of various latent heat thermal storage systems having encapsulated phase change materials.
Acknowledgment The authors acknowledge the support provided by the Provincial Science (E200822) and the Natural Science and Harbin University of Commerce.
Balcon, “Phase Change Thermal Energy Storage Using Spherical Capsules: Performance of a Test Plant,” International Journal of Refrigeration, vol. 19, 1996, pp. 187–196
Zhu, “A General Model for Analyzing the Thermal Performance of the Heat charging and Discharging Processes of Latent Heat Thermal Energy Storage Systems,” Journal of Solar Energy Engineering, vol. 23, 2001, pp. 232–236
Zhang [6] presented a general model for analyzing the thermal characteristics of both heat charging and discharging processes of various latent heat thermal storage systems having encapsulated phase change materials.
Acknowledgment The authors acknowledge the support provided by the Provincial Science (E200822) and the Natural Science and Harbin University of Commerce.
Balcon, “Phase Change Thermal Energy Storage Using Spherical Capsules: Performance of a Test Plant,” International Journal of Refrigeration, vol. 19, 1996, pp. 187–196
Zhu, “A General Model for Analyzing the Thermal Performance of the Heat charging and Discharging Processes of Latent Heat Thermal Energy Storage Systems,” Journal of Solar Energy Engineering, vol. 23, 2001, pp. 232–236
Online since: February 2019
Authors: Vitalii G. Bamburov, A.G. Morozova, Gennady G. Mikhailov
Investigation of Physical and Chemical Processes of Formation of Composite Materials with Specified Structural Phase Characteristics
Gennady G.
Sciences, Chelyabinsk, 1982
Zubov et al., Questions in the theory and practice of the production of zirconium electrocorundum, Theoretical and experimental studies of abrasive materials, Collection of articles, Academy of Sciences of the USSR, Ural Scientific Center, Sverdlovsk, (1982) 54-69
Zhekhanova, Requirements for abrasive materials from zirconium electrocorundum for rough grinding, Chelyabinsk, 1991
Collection of materials from XIII Russian annual conference of young researchers and graduate students, Institute of Metallurgy and Materials Science A.A.
Sciences, Chelyabinsk, 1982
Zubov et al., Questions in the theory and practice of the production of zirconium electrocorundum, Theoretical and experimental studies of abrasive materials, Collection of articles, Academy of Sciences of the USSR, Ural Scientific Center, Sverdlovsk, (1982) 54-69
Zhekhanova, Requirements for abrasive materials from zirconium electrocorundum for rough grinding, Chelyabinsk, 1991
Collection of materials from XIII Russian annual conference of young researchers and graduate students, Institute of Metallurgy and Materials Science A.A.
Online since: May 2013
Authors: Muhammad Rafi Raza, Faiz Ahmad, M.A. Omar, R.M. German, Ali S. Muhsan
"Production of metal matrix composite part by powder injection molding," Journal of Materials Processing Technology, 108(2001)398-407
"Sintering study of 316L stainless steel Metal Injection Molding parts using Taguchi method: final density," Materials Science and Engineering,311(2001)74-82
"Rapid debinding of 316L stainless steel injection moulded component," Journal of Materials Processing Technology, vol. 140, pp. 397-400, 2003
Part L, Journal of materials, design and applications, LHL, 2000, pp. 139-152
Salman, "Microstructures and mechanical properties of injection molded 17-4PH stainless steel powder with nickel boride additions," Journal of Materials Science, 40(2005)3415-3421
"Sintering study of 316L stainless steel Metal Injection Molding parts using Taguchi method: final density," Materials Science and Engineering,311(2001)74-82
"Rapid debinding of 316L stainless steel injection moulded component," Journal of Materials Processing Technology, vol. 140, pp. 397-400, 2003
Part L, Journal of materials, design and applications, LHL, 2000, pp. 139-152
Salman, "Microstructures and mechanical properties of injection molded 17-4PH stainless steel powder with nickel boride additions," Journal of Materials Science, 40(2005)3415-3421
Online since: October 2006
Authors: Chris D.W. Wilkinson, Nikolaj Gadegaard, Matthew J. Dalby, Elena Martines, Kris Seunarine, Mathis O. Riehle, Adam S.G. Curtis
Chen: Chemistry of Materials Vol. 15 (2003), p. 2917
[9] F.
Richards: Journal of Biomedical Materials Research Part A Vol. 75A (2005), p. 541 [15] S.
Nealey: Journal of Vacuum Science & Technology B Vol. 21 (2003), p. 683 [25] P.
Wilkinson: Journal of Cell Science Vol. 99 (1991), p. 73 [26] S.
Affrossman: Advanced Materials Vol. 16 (2004), p. 1857 [37] N.
Richards: Journal of Biomedical Materials Research Part A Vol. 75A (2005), p. 541 [15] S.
Nealey: Journal of Vacuum Science & Technology B Vol. 21 (2003), p. 683 [25] P.
Wilkinson: Journal of Cell Science Vol. 99 (1991), p. 73 [26] S.
Affrossman: Advanced Materials Vol. 16 (2004), p. 1857 [37] N.
Online since: January 2014
Authors: Hong Cao, Kai Jia, Min Han Luo
Figure 2 Piezometric Tubes Arrangement Schematic Diagram (Unit: mm)
Experiment Material.
Acknowledgements The financial support provided by The State Key Laboratory of Subtropical Building Science (2009ZC17) and The Guangdong Science and Technology Department (2008B030302037) is gratefully acknowledged.
Duan, J.B.Cai, Journal of Hydraulic Engineering.Vol.11(2004),p.46
[6] G.X.Li, X.J.Zhou, Advances in Science and Technology of Water Resources.
[11] Q.L.Yao, L.Q.Ding, Veravan Beek, Journal of Zhengzhou University(Engineering Science).
Acknowledgements The financial support provided by The State Key Laboratory of Subtropical Building Science (2009ZC17) and The Guangdong Science and Technology Department (2008B030302037) is gratefully acknowledged.
Duan, J.B.Cai, Journal of Hydraulic Engineering.Vol.11(2004),p.46
[6] G.X.Li, X.J.Zhou, Advances in Science and Technology of Water Resources.
[11] Q.L.Yao, L.Q.Ding, Veravan Beek, Journal of Zhengzhou University(Engineering Science).
Online since: October 2025
Authors: Muhammad Alwi Foury, Rifqi Aulia Tanjung, Fikan Mubarok Rohimsyah
With this research, we tread on the exciting intersection of materials science and artificial intelligence, hoping to provide actionable insights that can redefine how we approach the fabrication and understanding of aluminum-based sacrificial anodes.
Tsai, "Protection of Steel Using Aluminum Sacrificial Anodes in Artificial Seawater," Journal of Marine Science and Technology, vol. 4, no. 1, 1996
Saeri, "Anodic behavior of Al–Zn–In sacrificial anodes at different concentration of zinc and indium," International Journal of Materials Research, vol. 103, no. 12, 2013
Ferdian, "Effect of Silicon on Corrosion Behaviour of Al-Zn as a Low Voltage Sacrificial Anode for Marine Environment," IOP Conference Series: Materials Science and Engineering, vol. 547, 2019
Pratesa, "Study of Al-Zn-Cu-Sm Efficiency for Low-Voltage Sacrificial Anode Candidate," IOP Conference Series: Materials Science and Engineering, vol. 553, 2019
Tsai, "Protection of Steel Using Aluminum Sacrificial Anodes in Artificial Seawater," Journal of Marine Science and Technology, vol. 4, no. 1, 1996
Saeri, "Anodic behavior of Al–Zn–In sacrificial anodes at different concentration of zinc and indium," International Journal of Materials Research, vol. 103, no. 12, 2013
Ferdian, "Effect of Silicon on Corrosion Behaviour of Al-Zn as a Low Voltage Sacrificial Anode for Marine Environment," IOP Conference Series: Materials Science and Engineering, vol. 547, 2019
Pratesa, "Study of Al-Zn-Cu-Sm Efficiency for Low-Voltage Sacrificial Anode Candidate," IOP Conference Series: Materials Science and Engineering, vol. 553, 2019