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Online since: December 2010
Authors: Wei Gang Feng, Guo Xin Chen, Wei Huang
Cotton stalk block is a new type of ecological filling materials.
Based on this combination, the compressive strength of the block can reach to1.55 MPa, which can meet the strength requirement of the filling materials.
Chinese Journal of Bioprocess Engineering. 7(3), 2009, p. 21~23.
Journal of Xi’an Univ. of Arch. & Tech. 28(4), 2009, p. 643~645.
Journal of Cellulose Science and Technology, 13(4), 2005, p. 60~64.
Based on this combination, the compressive strength of the block can reach to1.55 MPa, which can meet the strength requirement of the filling materials.
Chinese Journal of Bioprocess Engineering. 7(3), 2009, p. 21~23.
Journal of Xi’an Univ. of Arch. & Tech. 28(4), 2009, p. 643~645.
Journal of Cellulose Science and Technology, 13(4), 2005, p. 60~64.
Online since: December 2013
Authors: Abdul Rahman Mohd Faizal, Muhammad Syafiq Jainal, Suffiyana Akhbar, Siti Norsyarahah Che Kamarludin
In these hybrid materials, it is possible to expect very interesting characteristics that are not found in the organic polymer or the inorganic material independently.
Journal of Materials, 2(3):992-1057 (2009) [4] Y.Wang, H.Shen, LI Gu, M.
Polymer-layered silicate nanocomposites: preparation, properties and uses of a new class of materials.
Materials Science Engineering:R:Reports, 28 (1-2) (2000) 1–63.(2000) [7] Ali, Ilias and Al-Zahrani.
Material Science Engineering A, 332(1-2):301–310.(2002) [11] F.Omar, K.B.
Journal of Materials, 2(3):992-1057 (2009) [4] Y.Wang, H.Shen, LI Gu, M.
Polymer-layered silicate nanocomposites: preparation, properties and uses of a new class of materials.
Materials Science Engineering:R:Reports, 28 (1-2) (2000) 1–63.(2000) [7] Ali, Ilias and Al-Zahrani.
Material Science Engineering A, 332(1-2):301–310.(2002) [11] F.Omar, K.B.
Online since: July 2014
Authors: S. Srinivasa Moorthy, K. Manonmani, M. Sankar Kumar
Introduction
The design and development of composite materials is one of the most important advances in the history of manufacturing materials.
Materials E-glass fibers are the most common of all reinforcing fibers for polymeric matrix composites.
Hardness of the composite materials was measured using Rockwell hardness tester.
Joseph, Development and characterization of liquid carbon fibre reinforced aluminium matrix composite, Journal of Materials Processing Technology, vol.209, (Dec. 2008) 4809 – 4813
[8] Hasim Pihtili, An experimental investigation of wear of glass fibre – epoxy resin and glass fibre – polyester resin composite materials, European Polymer Journal, vol. 45, (Jan. 2009) 149 – 154
Materials E-glass fibers are the most common of all reinforcing fibers for polymeric matrix composites.
Hardness of the composite materials was measured using Rockwell hardness tester.
Joseph, Development and characterization of liquid carbon fibre reinforced aluminium matrix composite, Journal of Materials Processing Technology, vol.209, (Dec. 2008) 4809 – 4813
[8] Hasim Pihtili, An experimental investigation of wear of glass fibre – epoxy resin and glass fibre – polyester resin composite materials, European Polymer Journal, vol. 45, (Jan. 2009) 149 – 154
Online since: July 2015
Authors: Fuh Kuo Chen, Heng Kuang Tsai, Yi Wei Lin, Sin Liang Lin, I Kai Lin
Acknowledgements
The authors wish to thank the National Science Council of the Republic of China for the grant under project # NSC 102-2622-E-006 -032, which makes this research possible.
Matlock, Influence of low-strain deformation characteristics of high strength sheet steel on curl and springback in bend-under-tension tests, Journal of Materials Processing Technology 182 (2007) 84-94
Chen, Numerical analysis of panels’ dent resistance considering the Bauschinger effect, Materials and Design 31 (2010) 870-876
Kuroda, Measurement and analysis of differential work hardening in cold-rolled steel sheet under biaxial tension, Journal of Materials Processing Technology 80-81 (1998) 517-523
Wagoner, Anisotropic hardening equations derived from reverse-bend testing, International Journal of Plasticity 18 (2002) 743–767.
Matlock, Influence of low-strain deformation characteristics of high strength sheet steel on curl and springback in bend-under-tension tests, Journal of Materials Processing Technology 182 (2007) 84-94
Chen, Numerical analysis of panels’ dent resistance considering the Bauschinger effect, Materials and Design 31 (2010) 870-876
Kuroda, Measurement and analysis of differential work hardening in cold-rolled steel sheet under biaxial tension, Journal of Materials Processing Technology 80-81 (1998) 517-523
Wagoner, Anisotropic hardening equations derived from reverse-bend testing, International Journal of Plasticity 18 (2002) 743–767.
Online since: December 2011
Authors: Jiao Jiao Chen, Qing Song Zhang, Li Chen, Yi Ping Zhao, Wei Lai Zhang, Xiao Hong Liu, Kong Yin Zhao
Experimental Section
Materials.
Agnes, et al: Journal of colloid and interface science, Vol. 364 (2011), p. 18 [2] Z.P.
Li: Journal of Applied Polymer Science, Vol.122 (2011), p. 1847 [5] J.J.
Zou: Journal of Separation Science, Vol. 28 (2005), p. 2282 [6] B.
Antonio: Journal of chromatography.
Agnes, et al: Journal of colloid and interface science, Vol. 364 (2011), p. 18 [2] Z.P.
Li: Journal of Applied Polymer Science, Vol.122 (2011), p. 1847 [5] J.J.
Zou: Journal of Separation Science, Vol. 28 (2005), p. 2282 [6] B.
Antonio: Journal of chromatography.
Online since: May 2014
Authors: Jia Yu Zhang, Bing Xin Du, Kun Huang
Research on Oxidation Methods for Coking Wastewater Treatment
Kun Huang1, a*, Bingxin Du 2, Jiayu Zhang1
1School of Chemistry and Chemical Engineering, Sichuan University of Arts and Science, Dazhou, 635000, China.
2Department of Computer Science, Sichuan University of Arts and Science, Dazhou, 635000, China.
The sustainable development of China's economy leads to the development of iron and steel industries and other basic industries, which increases the demand of basic raw materials-coke in production of steel and makes coking wastewater treatment particularly urgent[2].
Kim, et al.: Journal of Hazardous Materials Vol. 152(2009), p. 915–921
Jiang, et al.: Journal of Hazardous Materials Vol. 189 (2011), p. 308–314
Sevimli: Journal of Hazardous Materials Vol. 166(2009), p. 782–787
The sustainable development of China's economy leads to the development of iron and steel industries and other basic industries, which increases the demand of basic raw materials-coke in production of steel and makes coking wastewater treatment particularly urgent[2].
Kim, et al.: Journal of Hazardous Materials Vol. 152(2009), p. 915–921
Jiang, et al.: Journal of Hazardous Materials Vol. 189 (2011), p. 308–314
Sevimli: Journal of Hazardous Materials Vol. 166(2009), p. 782–787
Online since: July 2013
Authors: Hai Bing Wu, Qian Liang Chen, Quan Ping Sun
The Measurement of ZrO2 Ceramic Thermal Expansion
2.1 Experimental Materials.
Davie:Journal of Materials Science(2001) [2] É.
Ulyanov:Translated from Steklo i Keramika(1978) [3] Fang-Fang Xu, Li-Tai Ma, Shu-Lin Wen: Journal of Material Science(1996) [4] J.Janardhana Reddy, Amitavo Chakraborty, Sarit, B.
Bhaduri: Journal of Materials Science Letters(1989) [5] M.
Fahim, et al :Journal of Metrology Society of India(2012) [6] Vilupanur Ravi, Samad Firdosy: Journal of Electronic Materials(2009)
Davie:Journal of Materials Science(2001) [2] É.
Ulyanov:Translated from Steklo i Keramika(1978) [3] Fang-Fang Xu, Li-Tai Ma, Shu-Lin Wen: Journal of Material Science(1996) [4] J.Janardhana Reddy, Amitavo Chakraborty, Sarit, B.
Bhaduri: Journal of Materials Science Letters(1989) [5] M.
Fahim, et al :Journal of Metrology Society of India(2012) [6] Vilupanur Ravi, Samad Firdosy: Journal of Electronic Materials(2009)
Online since: October 2013
Authors: Si Wen Tang, Peng Nan Li, Li Na Zhang, Wen Bo Tang, Shuai Zhang
It is successfully used for variety of materials with different ranges of temperature and strain rate.
Therefore, J-C model has enjoyed much success for its simplicity and the availability of parameters for various materials.
Vol.30 (2011), p.30~33 [5] ShuYing, ZengWeidong, Zhou Jun, Zhou Yigang, Zhou Lian: Material Science and Technology, Vol.13 (2005), p.66~69
Anirudh , Swadesh Kumar Singh: Materials and Design.
Vol.43 (2013), p.410~418 [8] Chang Liezhen, Pan Yutan, Zhang Zhimin, Xue Yong: Journal of Materials Science and Engineering.
Therefore, J-C model has enjoyed much success for its simplicity and the availability of parameters for various materials.
Vol.30 (2011), p.30~33 [5] ShuYing, ZengWeidong, Zhou Jun, Zhou Yigang, Zhou Lian: Material Science and Technology, Vol.13 (2005), p.66~69
Anirudh , Swadesh Kumar Singh: Materials and Design.
Vol.43 (2013), p.410~418 [8] Chang Liezhen, Pan Yutan, Zhang Zhimin, Xue Yong: Journal of Materials Science and Engineering.
Online since: December 2010
Authors: Yun Xia Lun, Shao Shun Liu, Ming Kai Zhou, Xiao Fan Liu
Construction and Building Materials,17(2003),p 105
[4] Y Huang., Roger N.
Journal of Hazardous Materials, 2006, 138(2),p 261 [9] Han Y M , Jung H Y , Seong S K.
Journal of Wuhan University of Technology--Materials Science Edition, 2007, 22(4),p737-742 [11] Fang H H.
Construction and Building Materials, 2003,23(1),p482–490
Journal of Building Materials.1999,2(3),p187-192 (in Chinese) [18] Xu B Y.
Journal of Hazardous Materials, 2006, 138(2),p 261 [9] Han Y M , Jung H Y , Seong S K.
Journal of Wuhan University of Technology--Materials Science Edition, 2007, 22(4),p737-742 [11] Fang H H.
Construction and Building Materials, 2003,23(1),p482–490
Journal of Building Materials.1999,2(3),p187-192 (in Chinese) [18] Xu B Y.
Online since: December 2013
Authors: Jay Sanjayan, Jessie Xia Hui Chai, Tsui Ming Lu, Behzad Nematollahi
Materials
Fly Ash.
Geopolymers: inorganic polymeric new materials.
Journal of Materials Science, 42(9), 2917-2933
International Journal of Earth Sciences and Engineering, 5(4), 817-824
ACI Materials Journal-American Concrete Institute, 101(6), 467-472
Geopolymers: inorganic polymeric new materials.
Journal of Materials Science, 42(9), 2917-2933
International Journal of Earth Sciences and Engineering, 5(4), 817-824
ACI Materials Journal-American Concrete Institute, 101(6), 467-472