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Online since: July 2011
Authors: Zhen Ying Zhang, Da Zhi Wu
Introduction
Municipal solid waste is a refuse composed of various materials with different properties.
Composition of the Testing Materials.
The materials of municipal solid waste are divided into three parts: the material that is easy to be biodegraded, reinforced material that is difficult to be biodegraded and incompressible solid waste material.
Wu: submitted to Journal of Advanced Materials Research (2011) [2] T.
Siegel et al, in: American Society for Testing and Materials. (1990), p. 259-284
Composition of the Testing Materials.
The materials of municipal solid waste are divided into three parts: the material that is easy to be biodegraded, reinforced material that is difficult to be biodegraded and incompressible solid waste material.
Wu: submitted to Journal of Advanced Materials Research (2011) [2] T.
Siegel et al, in: American Society for Testing and Materials. (1990), p. 259-284
Online since: January 2018
Authors: V.C.C. Lee, Noman Khandoker, Sumaiya Islam, Yik Vui Kong
Cronin: Journal of Manufacturing Science and Engineering 117(3) (1995): 316-322
Barkey: Journal of Engineering Materials and Technology 127(3) (2005):310-317
Shang: Materials & Design 30(4) (2009): 1008-1013
Chao: Journal of Engineering Materials and Technology 125(2) (2003):125-132
Takla: Materials & Design 54 (2014): 323-330
Barkey: Journal of Engineering Materials and Technology 127(3) (2005):310-317
Shang: Materials & Design 30(4) (2009): 1008-1013
Chao: Journal of Engineering Materials and Technology 125(2) (2003):125-132
Takla: Materials & Design 54 (2014): 323-330
Online since: September 2013
Authors: Zhong Qiang Zhang
Midtdal and B.P.Jelle: Solar Energy Materials & Solar Cells, Vol. 109 (2013), p. 126
[4] Y.Wang, X.Y.Xiao,and C.X.Wan: New Chemical Materials, Vol. 36 (2008) , p. 12
[5]C.
Zhang: Journal of Colloid and Interface Science, Vol. 365 (2012), p. 308 [7]V.
Zhang :Materials Science and Engineering : B, Vol. 138(2007) , p. 151 [11] P.
Arpac: Solar Energy Materials & Solar Cells, Vol. 93 (2009), p. 1833 [18] Z.Y.
Munafò: Construction and Building Materials, Vol. 37 (2012) , p.51 [21]M.M.
Zhang: Journal of Colloid and Interface Science, Vol. 365 (2012), p. 308 [7]V.
Zhang :Materials Science and Engineering : B, Vol. 138(2007) , p. 151 [11] P.
Arpac: Solar Energy Materials & Solar Cells, Vol. 93 (2009), p. 1833 [18] Z.Y.
Munafò: Construction and Building Materials, Vol. 37 (2012) , p.51 [21]M.M.
Online since: September 2011
Authors: Yuan Sheng Wang, Hong Wei Yu, Hui Wu Yuan, Zheng Wei
Experimental
Materials.
Acknowledgements The authors gratefully acknowledge financial support from the National Natural Science Foundation of China (No. 51073098) and State Key Laboratory of Polymer Material Engineering (Sichuan University) (No.
Journal of Wuhan University of Technology(Materials Science Edition), Vol.26(2011)No.3, p.1 [7] Dietrich J , Hirt P, Herlinger H.
European Polymer Journal, Vol.32(1996)No.5, p.617 [8] Wang Yangxiang, Wang Chengguo, Ma Yong, et al.
Journal of Functional Polymers, Vol.16(2003)No.1, p.85 [9] Qiang Xu, Lianghua Xu, Weiyu Cao, et al.
Acknowledgements The authors gratefully acknowledge financial support from the National Natural Science Foundation of China (No. 51073098) and State Key Laboratory of Polymer Material Engineering (Sichuan University) (No.
Journal of Wuhan University of Technology(Materials Science Edition), Vol.26(2011)No.3, p.1 [7] Dietrich J , Hirt P, Herlinger H.
European Polymer Journal, Vol.32(1996)No.5, p.617 [8] Wang Yangxiang, Wang Chengguo, Ma Yong, et al.
Journal of Functional Polymers, Vol.16(2003)No.1, p.85 [9] Qiang Xu, Lianghua Xu, Weiyu Cao, et al.
Online since: July 2012
Authors: Ning Yan, Yue Li Zhang, Sheng Hong Yang
Preparation and Electrical Properties of Bi0.9Nd0.1Fe0.925Mn0.075O3 thin films
Yan Ning1, Yang Sheng-hong1,a, and Zhang Yue-li1,2,b
1State Key Laboratory of Optoelectronic Materials and Technologies // School of Physics & Engineering, Sun Yat-sen University, Guangzhou 510275, P.R.
Introduction Materials, which exhibit at least two of the ferroic properties, namely, ferroelectricity, ferromagnetism, ferroelasticity and ferrotoroidicity, are known as multiferroics.
Nan: Journal of Applied Physics Vol.110(2011) p. 094106 [6] Z.
Wang: Journal of Applied Physics Vol.107(2010) p. 124109 [8] J.
Ramesh : Science Vol.299( 2003) p.1719
Introduction Materials, which exhibit at least two of the ferroic properties, namely, ferroelectricity, ferromagnetism, ferroelasticity and ferrotoroidicity, are known as multiferroics.
Nan: Journal of Applied Physics Vol.110(2011) p. 094106 [6] Z.
Wang: Journal of Applied Physics Vol.107(2010) p. 124109 [8] J.
Ramesh : Science Vol.299( 2003) p.1719
Online since: May 2011
Authors: Bao Chen, Ke Mu, Xuan Cang Wang
Pavement material adopted Burgers model partly.
Reference: [1] Hairong Yang, hongxin Guang, Journal of ChangSha Communication University (Natural Science Edition), 2008,5(12):15-17(In Chinese)
Journal of Chang’an University (Natural Science Edition),2006,26(6):19-22(In Chinese)
Journal of Chongqing jianzhu University,2008,30(6):32-36(In Chinese)
Journal of Wuhan University of Technology: Transportation Science&Engineering,2006,30(6):969-972(In Chinese)
Reference: [1] Hairong Yang, hongxin Guang, Journal of ChangSha Communication University (Natural Science Edition), 2008,5(12):15-17(In Chinese)
Journal of Chang’an University (Natural Science Edition),2006,26(6):19-22(In Chinese)
Journal of Chongqing jianzhu University,2008,30(6):32-36(In Chinese)
Journal of Wuhan University of Technology: Transportation Science&Engineering,2006,30(6):969-972(In Chinese)
Online since: June 2011
Authors: Shu Tao Xiong, Xiao Ke Li, Fu Sheng Pan, Bin Jiang
College of Materials Science and Engineering, Chongqing University,
Chongqing, China, 400045
2.
Davis: Materials Science and Engineering A.
Luo: International Materials Reviews.
[12] Qu-dong Wang, Wen-zhou Chen, Xiao-qin Zeng, et al: Journal of Materials Science.
Vol. 29 (2008), p.1 [15] Guo-hua Wu, Yu Fan, Hong-tao Gao: Materials Science and Engineering A.
Davis: Materials Science and Engineering A.
Luo: International Materials Reviews.
[12] Qu-dong Wang, Wen-zhou Chen, Xiao-qin Zeng, et al: Journal of Materials Science.
Vol. 29 (2008), p.1 [15] Guo-hua Wu, Yu Fan, Hong-tao Gao: Materials Science and Engineering A.
Online since: January 2014
Authors: Si Wei Liu, Ji Cheng Zhou, Rui Xing Liu
Perumalc: Materials Science and Engineering B, Vol. 176 (2011) ,p.894–899
[3] Binner J,Vaidhyanathan B:Journal of the Ceramic Society, Vol.28 (2008) ,p.1329
[4] Y.Chang 1, X.B.
(Science and Technology), Vol. 38 (2007) No.1 [5] C.
Gogac:Chemical Engineering Journal , Vol. 138 (2008),p. 608–615 [6] Mun Teng Sooa,b, Niki Prastomob,c, Atsunori Matsudab:Applied Surface Science, 258 (2012) , p.5250–5258 [7] Nidhi Garga, Vinit K.
Leea,*:Materials Letters,Vol.57 (2003), p.2425 – 2431 [11]A.
Liao:Materials Review, Vol. 21 (2007) (In Chinese) [18] X.R.
(Science and Technology), Vol. 38 (2007) No.1 [5] C.
Gogac:Chemical Engineering Journal , Vol. 138 (2008),p. 608–615 [6] Mun Teng Sooa,b, Niki Prastomob,c, Atsunori Matsudab:Applied Surface Science, 258 (2012) , p.5250–5258 [7] Nidhi Garga, Vinit K.
Leea,*:Materials Letters,Vol.57 (2003), p.2425 – 2431 [11]A.
Liao:Materials Review, Vol. 21 (2007) (In Chinese) [18] X.R.
Online since: February 2014
Authors: Ong Wai Kit, Wan Nurulhuda Wan Shamsuri, Jackie Chen Keng Yik, Karim bin Deraman, Rosli Hussin
Diamond and Related Materials, 6 (1997) p. 153 - 158
Journal of Fundamental Sciences, 7 (2011) p. 1-5
Springer Series in Materials Science, 37. 2000
Plasma-Materials Interactions, 1995
Materials Science, 140-142 (1993) p. 89-106
Journal of Fundamental Sciences, 7 (2011) p. 1-5
Springer Series in Materials Science, 37. 2000
Plasma-Materials Interactions, 1995
Materials Science, 140-142 (1993) p. 89-106
Online since: December 2010
Authors: Hong Yi Jiang, Mei Zhu Sun, Yi Zheng, Li Li, Yu Lin Yang
Efficient Algorithm of Engineering Structural reliability and its realization with Matlab
Li Li1,2,3a, Hongyi Jiang1,b , Yi Zheng2,3,c , Yulin Yang3,c and Meizhu Sun3,d
1 School of Materials Science and Engineering, Wu Han University of Technology, Wu Han, 430070, China
2 School of Civil Engineering, ShenYang JianZhu University, Shenyang, 110168, China
3 LiaoNing Building Materials Science Institute, Shenyang, 110032, China
alili6899@163.com b jianghy@whut.edu.cn c dandongzy@126.com d 13898148888@139.com
Keywords: Engineering structure, Reliability, Matlab, Monte-Carlo method, Slag concrete brick.
Example 2: Slag concrete brick, as a kind of new materials utilizing wastes, is one kind of substituent for clay brick.
Design strength value of slag concrete brick masonry is computed by formula with, and is partial coefficient of materials of masonry structure.
References [1] Gui Jing-song, KANG Hai-gui: Chinese Journal of Computational Mechanics.
[4] B.K.Low, Wilson H.Tang: Journal of Engineering Mechanics, Vol123, (1997), p749
Example 2: Slag concrete brick, as a kind of new materials utilizing wastes, is one kind of substituent for clay brick.
Design strength value of slag concrete brick masonry is computed by formula with, and is partial coefficient of materials of masonry structure.
References [1] Gui Jing-song, KANG Hai-gui: Chinese Journal of Computational Mechanics.
[4] B.K.Low, Wilson H.Tang: Journal of Engineering Mechanics, Vol123, (1997), p749