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In view of the importance of these materials, many different methods, such as electrospinning[3], nanofiber seeding[4], electrochemical polymerization[5], template synthesis[6] and template-free method which is also called as self-assembly method[7], have been employed to prepare nanostructures of the PANI and substituted PANI.
Experimental Material.
Wei, Controlling the diameter of polyaniline nanofibers by adjusting the oxidant redox potential, Advanced Materials 19 (2007) 465-469
Guo, A novel templateless method to nanofibers of polyaniline derivatives with size control, Journal of Polymer Science: Part A: Polymer Chemistry 46 (2008) 740-746
Sahin, The Substituent Effects on the Structure and Surface Morphology of Polyaniline, Journal ofAppliedPolymer Science, 115 (2010) 3024–3030

Experimental details 2.1 Workpiece material High-strength steel 58SiMn is a kind of difficult-to-cut materials.
Journal of Harbin University of Science and Technology, 2012, 16(6): 5-10.
Journal of manufacturing science and engineering, 2000, 122(4): 620-631
Journal of Aeronautical Materials, 2007, 27(6): 45-49.
Journal of Materials Processing Technology, 2003, 143: 237-241

Piezoelectric-based sensors offer important advantages over traditional instrumentation with regards to real-time structural health monitoring (SHM) of composite materials and structures in recent years.
PZT Sensing Principle in Impact Monitoring Piezoelectric materials obtained rapid development since piezoelectric effect was found last century.
Yen, Identification of impact forces at multiple locations laminated plates, Journal of AIAA, 32(1994)2433-2439
Friebele, Detection of impact location and magnitude for isotropic plates using neural networks, Journal of Intelligent Material Systems and Structures,7(1997)90-99
Proceedings of SPIE, Smart Structures and Materials: Smart Sensor Technology and Measurement Systems, San Diego, CA, 2005

An equivalent strain is analyzed to investigate the effect of particle size of the FPC materials on osseointegration and initiation of bone remodelling.
In this regard, various biocompatible materials and different surface coating technologies have been dedicated in order to promote better osseointegration.
Computational Materials Science, 2002. 25(1-2): p. 100-114
Advanced Materials Research, 2008. 32: p. 189-192
Journal of Biomechanics, 1994. 27(8): p. 1067-1076

Adjust Compositions to Produce High Strength Steel Bars for the Building Industry ZHANG Tiejun1, 2, a 1 Research Institute for New Materials Technology, Chongqing University of Arts and Sciences, Chongqing 402160, China; 2Key Laboratory of Micro/Nano Materials Engineering and Technology, Chongqing 402160, China aztj1965@tsinghua.org.cn Keywords: steel bar for the building industry, high strength steel bar.
References [1] XIA Yun-jin, WANG Fu-ming, WANG Jin-long and ZHAO Jing: Journal of University of Science and Technology Beijing, Vol.32(10) (2010),p. 1271 (in Chinese) [2] Ginzburg, Vladimir B. and Ballas, Robert: Flat Rolling Fundamentals, CRC Press,2000 pp. 141–142 [3] WANG Jingsong, XU Jianguo and SUN Wei: Journal of University of Science and Technology Beijing.2007,29(Suppl.1):22-25(in Chinese) [4] SA-6/SA-6M - Specification For General Requirements For Rolled Structural Steel Bars, Plates, Shapes, And Sheet Piling.
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Advanced Materials Research, Vol.

Introduction With the rapid development of the national economy and the adjustment of energy structure, combustible gases are widely used as an essential fuel and raw materials to industrial development, the industries and energy structure will be further developed mainly with liquefied petroleum and natural gas in the future.
Acknowledgements This work was supported by the National Natural Science Foundation of China (No.50804038,No. 51174153).
,Dong, Journal of Nanjing University of Science and Technology Vol.30 (2006),p. 26
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Basicity and Crystal phase of Mesoporous K2O-MgO/ZrO2-La2O3 Catalyst Yu Su1,a 2,b, Guojun Dong3,c, Chengyuan Wang3,c, Jinsheng Gao1,a, Dongsheng Ma1,a, Zhizhong Sun1,a and PengWang2,b* 1School of Chemistry Engineering and Materials, Heilongjiang University, Harbin 150080, P.
China 3School of Materials Science and Chemical Engineering, Harbin Engineering University, Harbin 150001, P.
Ozin, Self-Assembling solid oxide fuel cell materials: mesoporous yttria-zirconia and metal-yttria-zirconia solid solutions, J.
Davis, Ordered porous materials for emerging applications, Nature. 417 (2002) 813-821
Sahebdelfar, et al, Effect of process parameters on the synthesis of mesoporous nanocrystalline zirconia with triblock copolymer as template, Journal of Porous Materials. 15 (2008) 171-179

Fig.10 Water pressure (after excavation) Fig.11 Water velocity (after excavation) Acknowledgements The authors wish to acknowledge funding and software support from the National Basic Research Program of China (973 Program NO. 2007CB209407), the Ministry of Communications’ Scientific and Technological Programs of Transportation Development in Western China (NO. 2009 318 000 008), the General Program of National Natural Science Foundation of China (NO. 51009085), the China Postdoctoral Science Foundation Funded Project (NO. 20090461235) and the Graduate Independent Innovation Foundation of Shandong University.
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Rare earth containing magnesium alloys were identified as slow corroding implant materials [15;18].
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