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The material parameters are shown in Table 1.
Journal of the china railway society, Vol.23,1(2001), p.76-79
JOURNAL OF CHONGQING JIAOTONG UNIVERSITY (NATURAL SCIENCE), Vol.29, 1 (2010), p. 63-68
[6] WU Hengbin: Effect of the Material Parameters of Rock Mass on Slope Stability, 2010 The 3rd International Conference on Environmental and Computer Science (2010), vol.1, p. 98-103
[8] Hoek E. and Diederichs M.S.: “Empirical estimation of rock mass modulus,” International Journal of Rock Mechanics & Mining Sciences, Vol. 43(2006), p. 203-215.

About a decade or so since the first work of modification made on the electrical properties of conjugated materials, the band gap has become one of the important tuneable electronic properties.
From these results, it might be reasonable to suggest that a ground state interaction is taking place between the two materials where MCMB, as an electron-donating material is affecting the interchain interaction, that is, by increasing the effective π-conjugation length of the MEH-PPV main chain thus slightly lowering the band gap.
Carter: The Journal of Chemical Physics 123 (2005) 044704 [3] A.
Balogh: Brazilian Journal of Physics, Vol. 34, No. 2B (2004)
Premalal: Sri Lankan Journal of Physics, Vol. 8 (2007) 29-37.

Metals and Materials Society, Warren dale, PA, (1990), p. 21
Jiang, et al.: Materials Science and Engineering A242 (1998), pp. 268-277 [3] K.
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Journal of Magnetism and Magnetic Materials, 2008, (320): e627
Journal of Magnetism and Magnetic Materials, 2009, (321): 1928
Journal of Magnetism and Magnetic Materials, 2011 (323): 2335
Journal of Magnetism and Magnetic Materials, 2011, (323): 3234
Journal of Magnetism and Magnetic Materials,2008,(320): 2490

Effect of Surface Modification on Slip Casting of SiC Slurry Caihua Zheng 1,a , Xiaoli Ji 2,b 1Mechanical and Electronic Engineering Department,Qing Quan Polytechnic, Qingyuan Guangdong 511510,China 2Key Laboratory for Silicate Materials Science and Engineering of Ministry Education,Wuhan University of Technology, Wuhan 430070, China azhengch1999@sohu.com, bjxl@whut.edu.cn Keywords: surface modification, SiC, rheology, slip casting Abstract.
Acknowledgement The authors are grateful for the financial support from the Science and Technology Project of Qing Quan Polytechnic.
Kovac,G.Drazic,et al,Surface Characterisation and Modification of Submicron and Nanosized Silicon Carbide Powders,Journal of the European Ceramic Society,Vol.27(2007),p. 3545–3550 [2] Wei Li,Ping Chen,Mingyuan Gu,Yanping Jin,Effect of TMAH on rheological behavior of SiC aqueous suspension,Journal of the European Ceramic Society,Vol.24(2004), p.3679–3684 [3] Qide Wu,Caihua Zheng,Xiaoli Ji,et al, Impacts of Defoaming Agents on a Modified SiC Slurry Slip Casting Process Performance,Journal of Wuhan University of Technology,Vol.30, No.2(2008),p.21-24 [4] Huagui Yang,Chunzhong Li,Hongchen Gu,and Tunan Fang.
Rheological Behavior of Titanium Dioxide Suspensions,Journal of Colloid and Interface Science, Vol.236 (2001), p.96–103 [5] Xiaolin Huang,Jingsheng Zhang,Chao Yang,et al,Determination of resistance and rheological properties of neutrally buoyant suspensions in tube flow,Journal of Chemical Industry and Engineering(China),Vol.69, No.11(2008),p.2787-2793 [6] Norio Tobori,Takeshi Amari.
Aspects 215 (2003), p. 163-171 [7] Richard J.Brook.Ceramics Processes in Materials Science and Technology Series,translated by State key laboratory of new Ceramics and fine processing, Science Press, Beijing, China, Vol.17A (1999),p.135-140

Journal of Civil Engineering, 1994,27(3):33-40.
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Fatigue of plain concrete under compression[J].China Civil Engineering Journal,1991,24 (4) :38-47
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The defects in crystalline materials significantly affect the fracture behaviors.
Wang, Computational Materials Science 12 (1998) 73
Miyazaki, Computational Materials Science 31 (2004) 269
Dahi, Mechanics of Materials 38 (2006) 243
Bulatov et al., Journal of Nuclear Materials 323 (2003) 281

Preparation of Co2W Type Hexagonal Ferrite used in the load side of isolator GONG Jian1,2,a, Guangliang Xu1,2, b,*, Yangxing Li3,c and Chengmin Peng3,d 1 State Key Laboratory Cultivation Base for Nonmetal Composites and Functional Materials, Southwest University of Science and Technology, Mianyang, 621010, China 2 Institute of New Materials, School of Material Science and Engineering, Southwest University of Science and Technology, Mianyang, 621010, China 3 Southwest Institute of Applied Magnetics, Mianyang, 621000, P.R.
The thermal degradation temperature of this kind of absorbing materials is 350 ºC.
The thermal degradation temperature of this kind of absorbing materials is 350 ºC.
Journal of Magnetism and Magentic Materials, Vol. 208(2000), p. 55 [7] Preghenella M, Pegoretti A, Migliaresi C.
Electronic Components and Materials, Vol. 28(2008), p. 56

Preparation and characterization of CePO4 coated ZrO2 composite powders by Hydrothemal method Jing Wang Xin Wang* Wenlai Zhang Qiuju Zheng Jihui Xu (Institute of Materials Science and Engineering, Ocean University of China, Qingdao China,266100) E-mail address: wangjing8354@yahoo.cn; wangxinhd@ouc.edu.cn Keywords: hexagonal monoclinic hydrothemal method Abstract: The hexagonal and the monoclinic CePO4 with rod-like coated ZrO2 composite powders were successfully synthesized through the hydrothemal method. the coated powders were characterized by the techniques of XRD, TEM, DTA and zeta potential measurements.
In addition, the morphology of the coated powders after calcinations at 1000°C was also investigated. 1.Introduction Ceramic materials have been used as engineering materials because of their high strength and high hareness.
In order to improve the machinability of this ceramic materials, one metrod is to introduce another weak interphase or layered structure material into the matrix to facilitate crack deflection during machining[3].
Acknowledgements The present work was financially supported by National Nature Science Funds of China(50542032) and Sci-tech Project of Qingdao(09-1-3-39-jch).
References: [1]Zhenjun Zhou, Wei Pan, Zhipeng Xie, Journal of the European Ceramic Society 23(2003), 1649-1654 [2]Davis J.B., Marshall D.B., Housley R.M., Morgan P.E.D., Journal of the American Ceramic Society, 81(1998), 2169-2175 [3]Ruigang Wang, Wei Pan, Jian Chen, Mengning Jiang, Youming Luo and Minghao Fang, Ceramics International, 29(2003), 19-25 [4]Youjin Zhang, Hangmin Guan, Journal of Crystal Growth, 256(2003), 156-161 [5]TIAN Boran, LIU Jiachen, ZHAO Yubong, LIU Mingzheng, Journal of Wuhan University of Technology-Mater.Sci.Ed, 20(2004), 17-20 [6]Hai Gao, Jiachen Liu, Haiyan Du, Mingzheng Liu, Weirong Huo, Lijuan Wang, Scripta Materialia, 49(2003), 515-520 [7]Hai Gao, Jiachen Liu, Haiyan Du, Mingzheng Liu, Lijuan Wang, Weirong Huo, Journal of rare earths, 21(2003), 637-640 [8]K.K.Chawlaa, H.Liub, J.Janczak-Ruschc, S.Sanbasivand, Journal of the European Ceramic Society, 20(2000), 551-559 [9]Vayssieres Lionel, Advanced Material, 15(2003), 464-466

Materials 2.1.
Journal of Materials Processing Technology 187–188, 344–348
Metallurgical and Materials Transactions A, pp. 880- 886, Vol. 39A
Materials Science and Engineering: A 527 (16–17), 3733–3740
ARPN Journal of Engineering and Applied Sciences. vol. 13, no. 23, December 2018, ISSN 1819-6608, pp.9061-9064