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Later, in 1991, Japan fabricates “resource effectively utilizing promotion laws”, and in 1995, it fabricates “container and packing the classified collection and recycling law”, and in 1999, it fabricates “architecture material recycling law”.
Japan proposes this goal because Japan is a country of waste material source and good reduction.
Acknowledgements This work is supported by the Social Science Research Project of Department of Education of Jilin Province (Grant 2014178).
References [1] Sun Ping: submitted to Regional Economy, 2011(12):p113-114 [2] Dou Linjuan, Liu Zhaofang: submitted to Journal of Beijing City College, 2012(5):p102-103 [3] Information on http://www.kantei.go.jp/jp/hukudaspeech/2008/06/13speech.html [4] Information on http://www.env.go.jp/ [5] M.

Acknowledgements This research was supported by Project 51208308 supported by NSFC, Project 51208307 supported by NSFC, Science and Technology Projects of Transportation Department of Guangdong Province (No. 2012-02-055).
References [1] Yu B, Liu HT, Yan B, Yang ZZ, Lai LY: Journal of Jilin University (Engineering and Technology Edition), 40(2010), 2.J [2] Huang HJ, Liu TL, Yang H: Advanced Transportation,41(2007),23.J [3] Tu WY, Ma J H, Guan W, Chen XJ: Advanced Materials Research, 989(2014),5624.J [4] Ivanova O: Advances in Transportation Studies, 3(2005) 25.J [5] L.Adler, J.Blue: Transportation Research Part B,39(2005),297.J [6] J.F.Rosaldo, Rossetti, H.Rafael:Transportation Research Part C,10(2002),373.J [7] P.Hidas: Transportation Research Part C,10(2002),351.J [8] P.Hidas: Transportation Research Part C,13(2005),37.J

Box 11-8281, Riad El Solh 1107 2260 Beirut, Lebanon 3 Chemistry Department, Faculty of Science, Beirut Arab University, P.O.
No 3C-SiC can be evidenced, for example by the increase of the intensity ratio between the peaks TO797/TO789, since no peak appears at 789 cm-1 for 3C-SiC material.
This spectrum is typical of highly ptype doped SiC material [7], which formation can be easily explained here by the massive incorporation of Al atoms from the melt into the SiC lattice of the growing layer.
Jacquier: New Journal of Chemistry 28(8) (2004), p. 889

Research on Micro Gear Design for WEDM Tieli Ye1,a Kewei Hu2,b Luling An3,c 1Shandong University of Science and Technology, Qingdao Shandong 266510, China 2Northeastern University, Shenyang Liaoning 110819, China 3Nanjing University of Aeronautics and Astronautics, Nanjing Jiangsu 210016, China aterryye99@yahoo.com.cn, boont88@yeah.net, canluling@yahoo.com.cn, Keywords: Micro gear, Tooth profile, Modeling, Meshing theory, WEDM Abstract: WEDM (Wire Electrical Discharge Machining) is an effective method for machining micro gears.
Antonoglou: Using ultra thin electrodes to produce micro-parts with wire-EDM, Journal of Materials Processing Technology, Vol.149(1-3) (2004), p.579-584

The Synthesis and Ion-exchange Property of Li+ Memorized Spinel Li2Mn0.75Ti0.25O3 Jinhe Jiang MicroScale Science Institute , Department of Chemistry and Chemical Engineering ,Weifang University, Weifang, 261061,China Corresponding author.
The appearance of ion memory inorganic materials (ion sieve) became possible direct extracting lithium from the salt water resources[1-2].
China Journal of Applied Chemistry. 1998,15(3),11-16 [3] Z.S.Peng, Y.S.Yan, C.Y.Jiang, C.R.Wan, H.C.Gao: Advance on extraction lithium from salt lake[J].

The Governing Equations of Cosserat Continuum Each material point in the two dimensional Cosserat continuum has three degrees-of-freedom, i.e. two translational degrees-of-freedom and one rotational degree-of-freedom with the rotation axis orthogonal to the two dimensional plane, (1) Correspondingly, the strain and stress vectors are defined as (2) (3) where are introduced as micro-curvatures in Cosserat theory, are the couple stresses conjugate to the curvatures , is defined as the internal length scale.
The material parameters used are: =5.0×107N/m2, =0.3, =1.0×107N/m2, , =1.5×105N/m2, =-1.5×105N/m2, =35°, =0.
Acknowledgements This work was financially supported by the National Natural Science Fund of China (50808033), and the National Key Basic Research and Development Program (973 Program, 2010CB731500).
[4] Hongxiang Tang and Xikui Li: Journal of Rock and Soil Mechanics(In Chinese), Vol.28, 2259-2264(2007)

Paschen1 1Institute of Solid State Physics Vienna University of Technology, Wiedner Hauptstr. 8-10, 1040 Vienna, Austria. 2Institute of Materials Chemistry Vienna University of Technology, Getreidemarkt 9/165-TC, 1060 Vienna, Austria.
Acknowledgement This work was supported by the ERC advanced researcher grant no. 227378 and the FWF (Austrian Science Fund, project P19458-N16).
Jeitschko, Journal of Alloys and Compounds 309 (2000) 1-9

McGilligan: Water Science and Technology Vol. 40 (9)(1999), p. 81–88
Jenkins: ASCE Journal of the Sanitary Engineering Division Vol.98 (1972), p. 79–99
[7] Ding shiqiang, Li Qingna, Pang Xinrong,Xu Jirun: Research on the Morphology and Composition of Flocs ( Part 1), Advanced Materials Research, 2013,……in press.

This paper using LS-DYNA program for numerical analysis, LS-DYNA using conditional stability of the explicit difference algorithm, Contains a variety of structural materials, including steel, concrete, alloy constitutive model.Wich simulate fiber fracture, mechanism motion and other complex mechanical process, to simulation of linear, nonlinear, or static, dynamic impact problems.
Acknowledgements The authors gratefully acknowledge the financial supports of the Natural Science Foundations of China through its Key Research Program (No. 50830203), the Specialized Research Fund for the Doctoral Program of Higher Education of China (No.20110143120003) and the Fundamental Research Funds for the Central Universities (WUT:2013-IV-019).
Journal of Wind Engineering and Industrial Aerodynamics, 2002,90(12-15):1415-1433 [9] Holmes JD.

Experimental Study on Throttling Refrigeration System Using Mixed Refrigerants Zhaofeng Meng1, a, Fang Wang2,b ,Yan Qu3,c,Yale Zhao4,d,Tang Li5,e 1 University of Shanghai for Science and Technology, Shanghai 200093, China a710498757@qq.com, bwang1996930@163.com, c 516087828@qq.com, d 1310188004@qq.com, e 578488783@qq.com Keywords: Multivariate mixed refrigerants;HC compounds;throttling refrigeration cycle;the best ratio Abstract.
According to relevant reference materials [7,8], the pentabasic refrigerant are identified as follows: nitrogen N2, methane R50, ethylene R1150, propane R290 and isobutene R600a.
Acknowledgements This work was financially supported by the 2013 Shanghai Students' Innovative Training Program (SH2013019) and Important Subject Foundation Program of Shanghai (S30503) References [1] Yezheng Wu,Baoqi Han: Refrigeration principles and equipment,Xi'an Jiaotong University Press(1997) [2] Little W A: Method for efficient counter current heat exchanger Using Optimized Mixtures, US Patent, 5,664,502(1997) [3] Little W A,Sapozhnikov I:Self-cleaning cryogenic refrigeration system,US Patent,5,724,832(1998) [4] Qin Wang,Guangming Chen:Optimizing principles of J-T refrigeration cycles using mixed refrigerants and the application, Cryogenic(2003),p.48-55 [5] Qin Wang,Guangming Chen:Optimization calculation and experimental study on multi-component rectification cycles using mixed refrigerants,Cryogenic(2003) [6] Guangming Chen,Zhizhong Yi: Vapor liquid equilibrium calculation for cryogenic fluids by a modified P-T equation of state,Chinese journal of low temperature