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Online since: December 2011
Authors: Tian Hong Yang, Qing Lei Yu, Hong Lei Liu, Shi Kuo Chen
Brittle failure of rock materials test results and constitutive models.
Proc. of IUMAM Symposium on Fracture of Brittle, Disordered Materials, Edited by Baker and Karihaloo, 1993:391-405 [7] Yale, D.P.
Materials and Structures (RILEM), 1983, 16: 155~177
Journal of Engineering Mechanics, 2000,4:307-314 [13] Sitharam Thallak, Leo Rothenbury & Maurice Dusseault.
Rock mechanics as a multidisciplinary science Roegiers(ed.), 1991, Balkema Rotterdam, Proceedings of the 32nd U.S.
Proc. of IUMAM Symposium on Fracture of Brittle, Disordered Materials, Edited by Baker and Karihaloo, 1993:391-405 [7] Yale, D.P.
Materials and Structures (RILEM), 1983, 16: 155~177
Journal of Engineering Mechanics, 2000,4:307-314 [13] Sitharam Thallak, Leo Rothenbury & Maurice Dusseault.
Rock mechanics as a multidisciplinary science Roegiers(ed.), 1991, Balkema Rotterdam, Proceedings of the 32nd U.S.
Online since: January 2017
Authors: Deng Pan, Qiang Li, Xu Yan Liu, Yan Lin Han
Yuan: Journal of University of Shanghai for Science and Technology, Vol. 35 (2015) No.2, p.165.
Fan: ACS Applied Materials & Interfaces, Vol. 8 (2016) No.21, p.13410
Jiang: Materials Review, Vol. 30 (2016) No.1, p.136
Li and L.J Zhi: Materials Today, Vol. 15 (2012) No.12, p.544
Hu: Electronic Components and Materials, Vol. 32 (2013) No.8, p.14
Fan: ACS Applied Materials & Interfaces, Vol. 8 (2016) No.21, p.13410
Jiang: Materials Review, Vol. 30 (2016) No.1, p.136
Li and L.J Zhi: Materials Today, Vol. 15 (2012) No.12, p.544
Hu: Electronic Components and Materials, Vol. 32 (2013) No.8, p.14
Online since: October 2014
Authors: David Pustka, Karel Kubečka
Acknowledgements
Article has been done in connection with project Institute of clean technologies for mining and utilization of raw materials for energy use, reg. no.
Utilization of Risk Analysis Methods in Decision-Making Process on Fitness of Rehabilitation, Advanced Materials Research. 899 (2014), pp. 568-571
Advanced Materials Research. 899 (2014), pp. 535-538
Instruments for Risk Analysis as an Alternative Decision-Making Method in the Forensic Sciences, Advanced Materials Research 899 (2014), pp. 556-559 [10] P.
ACI STRUCTURAL JOURNAL.
Utilization of Risk Analysis Methods in Decision-Making Process on Fitness of Rehabilitation, Advanced Materials Research. 899 (2014), pp. 568-571
Advanced Materials Research. 899 (2014), pp. 535-538
Instruments for Risk Analysis as an Alternative Decision-Making Method in the Forensic Sciences, Advanced Materials Research 899 (2014), pp. 556-559 [10] P.
ACI STRUCTURAL JOURNAL.
Online since: December 2012
Authors: Yu Qiu Song, Zhao Mei Qiu, Li Yan Wu
The result showed to improve the materials absorbance to 90% is practicable.
In this study, bionic structural material was employed to increase materials utilizing efficiency of solar energy through pure physical structure.
The results confirm the feasibility of increasing solar absorbance through bionic structural materials and lay some theoretical foundation for designing and fabricating of solar materials.
Chinese Journal of Materials Research, Vol. 24 (2001), p. 17-24 [8] Zhibin Li, Yating Wu, Yida Deng, et al.
Science in China Series E: Technological Sciences, Vol. 50 (2007), p. 430-436 [19] G.
In this study, bionic structural material was employed to increase materials utilizing efficiency of solar energy through pure physical structure.
The results confirm the feasibility of increasing solar absorbance through bionic structural materials and lay some theoretical foundation for designing and fabricating of solar materials.
Chinese Journal of Materials Research, Vol. 24 (2001), p. 17-24 [8] Zhibin Li, Yating Wu, Yida Deng, et al.
Science in China Series E: Technological Sciences, Vol. 50 (2007), p. 430-436 [19] G.
Online since: January 2016
Authors: Mohd Mustafa Al Bakri Abdullah, Mohammed Binhussain, Che Mohd Ruzaidi Ghazali, Shamala Ramasamy, Kamarudin Hussin, Noor Fifinatasha Shahedan, Mohammed Al Husaini
Introduction
Geopolymer is an aluminosilicate materials process by dissolving it in highly alkaline solution, then transform into three-dimensional tecto-aluminosilicate materials.
According to the material demanding in coating industry, geopolymer is inorganic materials, and unlike most of organic materials in coating industry which harmful to both humans and the environment.
Experimental Setup Raw materials.
References [1] Davidovits J., Geopolymers - Inorganic polymeric new materials.
Palomo, J.S.J. van Deventer Geopolymer technology: the current state of the art, Journal Material Science, 42 (2007), pp. 2917–2933
According to the material demanding in coating industry, geopolymer is inorganic materials, and unlike most of organic materials in coating industry which harmful to both humans and the environment.
Experimental Setup Raw materials.
References [1] Davidovits J., Geopolymers - Inorganic polymeric new materials.
Palomo, J.S.J. van Deventer Geopolymer technology: the current state of the art, Journal Material Science, 42 (2007), pp. 2917–2933
Online since: October 2014
Authors: Kun Peng Wang, Wan Hong Zhang
Electrochemical performance of anode materials for lithium-ion power batteries
WanHong Zhang1,2,a, KunPeng Wang1,b
1 School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471023, China
2 Collaborative Innovation Center of Nonferrous Metals, Henan Province, Luoyang 471023, China
azhangwh@haust.edu.cn, bwangkp@haust.edu.cn
Keywords: lithium-ion power battery; anode material; modification; electrochemical property; cyclic voltammetry
Abstract.
As an important part of lithium ion batteries, the anode materials play an important role in the performance of lithium ion power battery.
At present, the study of carbon anode materials is one of the most active areas of research for lithium ion battery[8,9].
In the present work, the anode materials were prepared by several typical modified processing method, and the electrochemical performance of Li-ion batteries with different anode materials were tested and analysed, by using cyclic voltammetry method, and the anode materials suitable to power battery was optimized. 1 Experimental 1.1 Experiment Principle Cyclic voltammetry or CV is a type of potentiodynamic electrochemical measurement.
Fergus: Journal of Power Sources Vol. 195(4) (2010), p. 939 [3] E.
As an important part of lithium ion batteries, the anode materials play an important role in the performance of lithium ion power battery.
At present, the study of carbon anode materials is one of the most active areas of research for lithium ion battery[8,9].
In the present work, the anode materials were prepared by several typical modified processing method, and the electrochemical performance of Li-ion batteries with different anode materials were tested and analysed, by using cyclic voltammetry method, and the anode materials suitable to power battery was optimized. 1 Experimental 1.1 Experiment Principle Cyclic voltammetry or CV is a type of potentiodynamic electrochemical measurement.
Fergus: Journal of Power Sources Vol. 195(4) (2010), p. 939 [3] E.
Online since: August 2016
Authors: She Sheng Zhang, Yu Guang Li, Chen Zhao
Gradient material design
Ceramic/metal gradient materials are mixed in different proportions.
The ceramic/metal functional gradient thermal barrier coating materials is calculated by using particle swarm optimization algorithm.
Acknowledgment The paper is financially supported by China national natural science foundation (No.51139005),.
[5] Nie Ronghua, Jiao Guiqiong, Wang Bo,, C/, 2D braided SiC ceramic matrix composites, thermal conductivity prediction [J], composite materials, 2009, (13): 169-174
Ceramic Engineering and Science Proceedings, 2008, 15(4): 555-562.
The ceramic/metal functional gradient thermal barrier coating materials is calculated by using particle swarm optimization algorithm.
Acknowledgment The paper is financially supported by China national natural science foundation (No.51139005),.
[5] Nie Ronghua, Jiao Guiqiong, Wang Bo,, C/, 2D braided SiC ceramic matrix composites, thermal conductivity prediction [J], composite materials, 2009, (13): 169-174
Ceramic Engineering and Science Proceedings, 2008, 15(4): 555-562.
Online since: June 2019
Authors: Milan Brandt, Stephen Niezgoda, Muhammad Musaddique Ali Rafique
Journal of Materials Science, 2016. 51(14): p. 6735-6749
Journal of Materials Science, 1991. 26(3): p. 588-592
Journal of Materials Science Letters, 1982. 1(5): p. 211-213
Journal of Materials Science, 2012. 47(1): p. 55-67
Journal of Materials Science, 1975. 10(10): p. 1802-1825.
Journal of Materials Science, 1991. 26(3): p. 588-592
Journal of Materials Science Letters, 1982. 1(5): p. 211-213
Journal of Materials Science, 2012. 47(1): p. 55-67
Journal of Materials Science, 1975. 10(10): p. 1802-1825.
Online since: February 2012
Authors: Feng Zhang
Nanoparticulate Functional Materials: Green synthesis and application for the degradation of phenolic compounds
Feng zhang
Dept.of chemistry & chemical engineering, BaoJi University of Arts and Sciences,
Bao Ji, Shaanxi 721007, P.
The results show that nano-ZnO is strong functional materials for envrionment protection.
The solid materials and the supernatants were collected respectively.
McCreary, Journal of Hazardous Materials, 1991, 28, 29-53
Throop, Journal of Hazardous Materials, 1975, 1, 319-329 [8].A.
The results show that nano-ZnO is strong functional materials for envrionment protection.
The solid materials and the supernatants were collected respectively.
McCreary, Journal of Hazardous Materials, 1991, 28, 29-53
Throop, Journal of Hazardous Materials, 1975, 1, 319-329 [8].A.