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Silica, namely precipitate SiO2, has the characteristics of high purification, low density, high specific surface area and fine decentralization, and also has high optics and mechanism capability, so it has been widely used in many fields, such as activator carriers, compound materials of macromolecule, electronic encapsulation materials and fine ceramic materials [3-6].
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[4] Federica Bondioli, Luisa Barbieri, Anna Maria Ferrari, et al., Journal of the American Ceramic Society. 93 (2010) 121-126
[6] Azadeh Tadjarodi, Marzieh Haghverdi, Vahid Mohammadi, Materials Research Bulletin. 47 (2012) 2584-2589
[7] Yan Liu, Yupeng Guo, Wei Gao, et al., Journal of Cleaner Production. 32 (2012) 204-209

References [1] Z.Q.Cao, X.G..Zhang, F.Jia, H.He, J.Z.Jin: Chinese Journal of Materials Research Vol.16 (2002), p.635 (in Chinese)
[4] Z.Q.Cao, X.G.Zhang, J.Z.Jin, F.Jia: Materials Science and Technology Vol.10 (2002), P.243 (in Chinese)
Clegg: Material Science and Technology Vol.15 (1999), p. 812
[7] C.H.Caceres, C.J.Davidson, J.R.Griffiths: Metallurgic Materials Transactions A Vol.30A (1999), p. 2611
Conrad: Material Science Engineering Vol.

Raw materials and methods Basic properties of raw materials Coal gangue is from Jiangsu Yixing and its chemical composition is listed in table 1.
But late strength of the alkaline-activated single-component slag coagulation materials developed slowly[3]-[5].
So the strength of two-component residue coagulation materials will not significantly decreased[4],[7].
Journal of the Chinese Ceramic Society.
Journal of Materials Science and Engineering.

Microstructure transformation of Nb-V microalloyed steel during continuous cooling process Li Xin1, a, Zhao Jie1, b,*, Bao Jun-cheng1, Ning Bao-qun1, Li Jian-ping2 1School of Materials Science and Engineering, Tianjin University of Technology, Tianjin 300384, China 2The State Key Lab of Rolling Technology and Automation, Northeastern University, Shenyang 110189, China alixin1988@yahoo.cn, b,*vzhaoj@tjut.edu.cn * Corresponding author.
Experimental material and method Material for experiment was novel high strength manganese steel with Nb and V microalloyed.
Acknowledgments This research was supported by Foundation of the State Key Laboratory of Rolling and Automation, Northeastern University (Grant No.2009011), National Natural Science Foundation of China (Grant No.51104107), the Natural Science Foundation of Tianjin (Grant No.12JCYBJC11800), and Key Technology Support Program of Tianjin China (Grant No.11ZCKFGX03900).
References [1] Z Y Zeng, L Q Chen, F X Zhu: Journal of Materials Science & Technology Vol. 27 (2011), p. 913 [2] Z B Zhang, Q Y Liu, X B Zhang: Journal of Iron and Steel Research Vol. 20 (2008), p. 36 [3] S H Zheng, Q S Wu, QY Huang: Fusion Engineering and Design Vol. 86 (2011), p. 2616 [4] G A Chen, W Y Yang, S Z Guo: Journal of University of Science and Technology Beijing Vol. 27 (2005), p. 302 [5] S Anijdan, S Yue: Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science Vol. 43A (2012), p. 1140 [6] Q D Liu, W Q Liu, S J Zhao: Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science Vol. 42A (2011), p. 3952 [7] H J Cheng, F M Wang, Z B Pan: Transactions of Materials and Heat Treatment Vol.30 (2009), p. 44 [8] X Z Luo, Z Y Chen, G Xu: Research on Iron & Steel Vol. 37 (2009), p. 18 [9] B Niznik, M Pietrzyk: Archives of Metallurgy and Materials Vol. 56 (2011), p. 731

Introduction In all aspects of EBSD applications in metallurgy, materials and Earth Science, much attention focuses on improvements in hardware, acquisition speed and precision.
This is very common in deformed materials, but what controls the angular scale and form of those graphs?
Schuh, in: Electron Backscatter Diffraction in Materials Science, A.J.
Balluffi, Interfaces in crystalline materials, 819 pp., Clarendon Press, Oxford, 1995
Nowell, in: Electron Backscatter Diffraction in Materials Science, A.J.

The manufacturer manufactures and remanufactures the raw materials which can be divided into two kinds, one is the semi-manufactured goods from the recycler, the other is from raw material suppliers.
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[2] Li F, Sun H, Da Q L: Chinese Journal of Management Science. 17 (3) (2009) 72-80
[5] Xiong Y, Li G: Journal of the Operational Research Society. 64 (9) (2012) 1314-1326
[7] Wang X, Chen M: Journal of Cleaner Production. 19(6) (2011) 680-686

J., Giunchi D.: Materials Science and Technology Vol. 49(3) (2002), p. 333-340
Izawa: Journal of Materials Processing Technology Vol. 155-156(30) (2004), p. 1662-1667
Yanagimoto: Journal of Materials Processing Technology Vol. 202(1-3) (2008), p. 412-418
[16] D.N.Li, J.R.Luo, and S.S.Wu: Journal of materials processing Technology Vol. 129(1-3) (2002), p. 431-434
M.: Materials Characterization Vol. 46 (2000), p. 419-426

After import blood pump rotor system to ANSYS Workbench, the first need is to setting each parts material attribute of the blood pump rotor system , because the materials supplied by the ANSYS are not all including the pump rotor materials needed in the system, so it’s need to create some special brand of material parameters alone, it’s only need to define density ,elastic modulus and poisson's ratio in the ANSYS Workbench and other parameters such as mass and moment of inertia will be calculate according to the density of the elastic modulus and poisson's ratio by the software itself, these datas will provide the necessary data base for the blood pump rotor system thermal analysis , in this paper studies on the blood pump rotor system of each parts material physical and mechanical performance parameters ,shown in table 1 Fig.1 The 3D model diagram of blood pump rotor system Part Mateial Density/kg/m3 Elasticiy modulus /GPa Poisson Ratio impeller Ti4 4510 105 0.33 permanet magnet
Acknowledgements This work was supported in part by the National Natural Science Foundation of China (Grant No. 61305019, 31271057) and the Jiangxi Province Natural Science Foundation of China (Grant No. 20122BAB206030, 20132BAB211032) and the Science and Technology Research Project of Jiangxi Province Department of Education (Grant No.
Journal of Xi'an Jiaotong University, (2006),40(11):p.1290-1294 [2] ZHANG JianFeng,WANG CuiLing,WU Yu PingG.
Journal of Biomedical Engineering Research, (2009),29 (3):p.152-155 [5] ZUO XiaoMing.
Shanghai motor college journals,,2006,,9(5): p.28-30

International Journal of Rock Mechanics and Mining Sciences&Geomechanics Abstracts, 2000, 37(3):467－475.
International Journal of Rock Mechanics andMining Sciences,1999,36(3):233－242
[7] Enrico Maranini,Tsutomu Yamaguchi.A non-associated viscoplastic model for the behaviour of granite in triaxial compression[J].Mechanics of Materials,2001,33(5):283－293
[8] SHAO J F,ZHU Q Z,SU K.Modeling of creep in rock materials in terms of material degradation[J].
Inter -national Journal of Rock Mechanics and Mining Sciences,1999,36(1):127－138

Their physical parameters such as fabric materials type, construction, mass per unit area (AS 2001.2.13–1987), fabric thickness (AS 2001.2.15-1989), wales and courses per unit length (stitch density), and optical porosity % were determined.
Okur, A new dynamic sweating hotplate system for steady-state and dynamic thermal comfort measurements, Measurement Science and Technology, 21, (2010), p. 085701
Watson, Thermal comfort properties of knitted fabrics suitable for skin layer of protective clothing worn in extreme hot conditions, Advanced Materials Research, 331, (2011), p. 184
Ng, Study of three-dimensional spacer fabrics:: Physical and mechanical properties, Journal of materials processing technology, 206(1), (2008), p. 359
Yadav, Thermal properties of knitted fabrics made from cotton and regenerated bamboo cellulosic fibres, International Journal of Thermal Sciences, 49(10), (2010), p. 2042.