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The parameters of materials and the model structure are assumed as following[2][3]： a）Materials in each pavement structural layer is homogeneous, isotropic, and linearly elastic, which means Hooke Law applies.
c）Contacts between any two layers are entirely continuous, and the effect of the pavement materials’ weights are ignored.
A geotechnical fabrics and a geogrid with a mesh size of 1.27cm×1.27cm were used as reinforced materials in the test.
Journal of Southeast University (Natural Science Edition), Vol. 37（2007）, p128-131.
Journal of Highway and Transportation Research and Development .

Ltd, Japan for supporting the research effort through materials and finance.
Materials Science & Engineering A 2011;528:3967-3972
Materials Science & Engineering A 2011;529:257-264
Materials Science & Engineering A 2012;556:633-637
Journal of Alloys and Compounds 2010;494:175-189.

Experimental Study of Vibration of Prototype Auditory Membrane Harto Tanujaya1, a and Satoyuki Kawano2 1 Department of Mechanical Engineering, Faculty of Engineering, Tarumanagara University, Jakarta - Indonesia 2Department of Mechanical Science and Bioengineering, Graduate School of Engineering Science, Osaka University, Osaka - Japan ahart_tan18@yahoo.com, harto@tarumanagara.ac.id Keywords: Auditory membrane, cochlea, PVDF, pulse, vibrations Abstract.
White and Karl Grosh (2005) also make an experiment of the cochlear model using materials of silicon-nitride Si3N4 beams and compared with the biological materials.
Hubbard, A hydromechanical biomimetic cochlea: Experiments and models, Journal of Acoustic Society of America, Vol.119, No.1(2006), pp. 394-405
White and Karl Grosh, Microengineered hydromechanical cochlear model, Proceedings of the National Academy of Sciences of the United States of America, Vol.102, No.5(2005), pp. 1296-1301.

,Ltd, 300454, China 2 Laboratory of Food Processing & Freshness Preservation (Tianjin University of Science & Technology), Ministry of Education, 300457, China ahaomeimeiok@163.com, bchenlan890804@163.com Keywords：Soybean oil, Moisture content, Acid value, Peroxide value Abstract：This paper studied the soybean under different temperature storage processing stability of grease.
Materials and methods Materials The Soybean is derived from the Tang Gu State Grain Storage, Tianjin, Storage temperature 0 ℃, respectively - 10 ℃ and room temperature.
[2] D.Q.Bao, Y.L.Bi and G.L.Yang , In the process of soybean oil in storage quality change and characterization , Cereals and Oils Processing. 2008,12:40-43 [3]S.Y.Wang, J.Liu, J.Yuan Soybean nitrogen storage of oil quality change research, [J] Journal of henan university of technology (natural science edition) ,2013,01:91-95+102
Food Science, 2004 ,25(51):241-244

Effect of different storage conditions on Soybean oil acid value Mei Mei Hao1 ,Xi Hong Li1 ,Hai Dong Liu2 ,Wei Qiao Yang1 , Chong Xiao Shao2, Shao He Liu2, Lan Chen1 1Key Laboratory of Food Nutrition and Safety,Tianjin University of science & Technology, Tianjin, 300457, China 2TianJin Gasin-Donghui Preservation Technologies Co.
materials and methods 1.1subject and equipment 1.1.1 experimenta materials Wuxing2.
Soybean science and technology, 2010,06:16-19+23
Journal of henan university of technology(Natural science edition) ,2013,06:77-81.

China 2State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, The Chinese Academy of Science, Lanzhou 730000, P.R.
Acknowledgements The authors would like to thank the financial support for this work from “Hundreds Talent Program” of Chinese Academy of Sciences and Scientific Research Foundation for the Returned Overseas Chinese Scholars, State Education Ministry.
Yan, etc.: Lubricating materials and lubrication technology (In Chinese), p. 45&169 [2] J.L.
Nakano: Key Engineering Materials Vol. 353-358 (2007), p. 852 [5] R.J.
Jin etc.: Journal of tsinghua university (natural science edition) (In Chinese) Vol. 41 (2001), p. 80

All material parameters are shown in Tab.1[4,5].
Tab.1 Material parameters in model Material Modulus(GPa) Poisson’s Density (kg/m3) Cohesive(kPa) Internal friction angle(o) ClassⅤ Rock 0.15 0.3 2120 91.8 35.24 Reinforced Rock 1 0.25 2300 200 45 Primary Support 23 0.2 2200 — — Steel Frame 210 0.3 7850 — — Analysis Results In order to analyze the mechanical characteristics of steel frame, the stress of the key points with the key parts were monitored through the whole construction process.
Acknowledgements This work was financially supported by the Shanxi Traffic Science and Research Project (Research and Application of Supporting Structure Mechanical Properties of Large Section of Loess Tunnel), (2012-1-1).
References [1] Jianxun Chen, Jian Hu, Chen Xu and Yanbin Luo: Journal of Chang'an University(Natural Science Edition).
[3] Jinwen Li: Shanxi Science & Technology of Communications.

Investigation of annealing effect on the electrical and optical properties of ITO film prepared by sol-gel process LI Jing, Zhao Xiao-dong School of Materials Science and Engineering, Southwest University of science and technology, Mianyang, Sichuan 621000, China; Key words: ITO film；annealing effect；electrical and optical properties；sol-gel process； Abstract.
This paper describes the deposition of ITO films by the sol-gel process using low-cast metal salts and organic solvents as raw materials.
Summary This work was financially supported by the doctoral Foundation of (09zx0028) Southwest University of science and technology, Correspondence: Li Jing ,PhD ; Tel:+86-015983676338; E-mail:xy13787103391@126.com Reference [1] F.zhu, C.H.A.Huan,K.Zhang.investigation of Annealing Effects on Indium Tin Oxide Thin Films by Electron Energy Loss Spectroscopy[J].Thin Solid Film ,2000,359:244-247
The Chinese Journal of Nonferrous Metals, 2005,1:123-126.

Allometric scaling relationship between solution concentration and nanofiber diameter in bubble electrospinning and its experimental verification Yong Liu1,2 a, Liang Dong1,2 , Jie Fan1,2 , Rui Wang1,2 and Ru-dong Chen3 1 Tianjin and Ministry of Education Key Laboratory of Advanced Textile Composite Materials, Tianjin Polytechnic University, Tianjin 300160, China 2 School of Textiles, Tianjin Polytechnic University, 63 Chenglin Road, Hedong District, Tianjin, 300160, China 3 School of Science, Tianjin Polytechnic University, 63 Chenglin Road, Hedong District, Tianjin, 300160, China aemail: liuyong@tjpu.edu.cn, bemail: dl101130@126.com, cemail: fanjie@tjpu.edu.cn Keywords: nanofibers, Bubble electrospinning, scaling law, concentration, diameter.
Solution reservoir Power supply Gas pump Gas tube bubble jets Collector Fig. 1 Schematic drawing of bubble electrospinning process Materials.
The present work is supported by Key Project of Chinese Ministry of Education No.210006, National Science Foundation of Tianjin No.10JCYBJC02200, Tianjin Universities Science and Technology Development Fund Project No.20080322.
Yu, Journal of Physics: Conference Series: Vol. 96 (2008), p.012001

Acknowledgements Supported by Beijing Higher Education Young Elite Teacher Project (YETP1440), China Natural Science Foundation (41172250), “Twelfth Five-year” National Science and Technology Support Project (2012BAK09B06),Beijing Science and Technology Achievement Transformation Project.
Advanced Materials Research Vols.734-737 (2013) [3] Shaojie Feng, Xuefang Zhao, Shiguo Sun.
Advanced Materials Research.(2014) [4] Sun Shiguo, Fan Caibing, Li Zhanke, Lu Hai.Metal Mine,(2010): P.36.
Journal of Rock Mechanics and Geotechnical Engineering , (2011).P.2103 (In Chinese)