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Based on the designed material in this study, blades, hood, power generator and LED lamps are actually produced and the data is drawn from a wind tunnel test to analyze the produced output amount.
Acknowledgement This research was financially supported by the Ministry of Education, Science Technology (MEST) and National Research Foundation of Korea(NRF) through the Human Resource Training Project for Regional Innovation.This work (Grants No.
References [1] Kim Hyun-Goo, Woo Sang-Woo, Jang Moon-Seok, Shin Hyung-Ki, “Computational Flow Analysis on Applicability of Vehicle-Induced Wind to Highway to Wind Power Generation” Journal of The Korean Society for New and Renewable Energy, Vol.4, No.4, pp.30∼36, 2008
[3] JeonJoong-Hwan, “Introduction to wind turbine technology”, Journal of The Korean Physical Society, pp.50∼54, 2006
[6] Yoon Seong-Wook, Jeon Wan-Ho, Kim Hyun-Goo, “Feasibility Analysis on Wind Turbine Embedded to Highway Median Strip - Consideration on Vehicle Drag Coefficient”, Journal of The Korean Society for New and Renewable Energy, pp.536∼538, 2009.

While with the condition of ground settlement, the calculation involves multiple nonlinearities including material, geometric, boundary, is more difficulty.
[J] Journal of Geodesy and Geodynamics.2009,29(8)90-94
Journal of East China Normal University, 2002, 4(12), 63-68
[J] Journal of Geodesy and Geodynamics.2009,29(5)121-124,128
Journal of Anhui Institute of Architecture& Industry.2004, 12(5), 51-55

Elastic constants and thermodynamic properties of Cu, Cu2O and CuO from first-principles calculations Nana Liu1,a, Jianlin Sun1,b, Di Wu1 1 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China aliunana549@yahoo.com.cn, bsjl@ustb.edu.cn Keywords: First-principles, Copper oxides, Elastic constants, Thermodynamic properties Abstract: Elastic constants and some thermodynamic properties of Cu and copper oxides were studied by first-principles total energy calculations.
An accurate description of the elastic and thermodynamic properties for solids is extremely important, because these play significant roles in determining some materials properties.
Acknowledgements This work was financially supported by Key Projects in the National Science & Technology Pillar Program (2011BAE23B00).
References [1] Zhenyu Li, Jun Shen, Fuyang Cao and Qingchun Li: Journal of Materials processing Technology Vol. 137(2003), p. 60 [2] W.Y.Ching and Yong-Nian Xu: Phys.
B Vol. 56(1997), p. 7189 [9] Chen Gang and Liao Li-ji: Fundamentals of Crystal Physics (Science Press, Beijing 1992)

Recently, sericin has been gradually applied in many fields such as cosmetics, supplementary food, biomedical materials, membranes and functional fibers.
Experimental Materials.
Acknowledgements This work was financially supported by the Anhui Provincial Natural Science Foundation of Anhui Provincial Science and Technology Department in China (10040606Q16), Anhui Academic Excellent Young Person Foundation of Anhui Provincial Education Department in China (2010SQRL058) and Young Person Natural Science Foundation of Anhui Agricultural University in Anhui Province of China (2009zd03).
Magaraphan: Reviews on Advanced Materials Science Vol. 5 (2003), p. 193 [3] M.
Lee, et al: Journal of Applied Polymers Science Vol. 80 (2001), p. 274 [6] U.J.

Journal of Anhui University of Science and Technology (Natural Science), (2010) NO.2, pp.17-20.
Advanced Materials Research, Vol. 339 (2011), pp.140-143
Advanced Materials Research, Vol. 787 (2013), pp.782-785
Advanced Materials Research, Vol. 787 (2013), pp. 567-571
Mechanical Science and Technology, vol.23, No.5, pp.509-511,552.

Materials and methods Materials.
Environmental Science, 2006, 27 (8): 1682-1686
Water Science Technology,2000,41(3):61-65
Journal of Bioscience and Bioengineering,2008,105(1):48-54
Environment Science,2006,27:1459-1463

Synthesis of Wood Lignin-Urea-Formaldehyde Resin Adhesive Zhe Wang1, a, Jingwen Xue2,b , Jianbo Qu3,c, Wenxia Liu4,d 1,2,4 Key Laboratory of Paper Science and Technology of Ministry of Education Shandong Polytechnic University, Jinan 250353, China 3 Department of Chemical Engineering, Shandong Polytechnic University, Jinan 250353, China awangzhe200304@163.com, bbadpalxue@163.com, cqujianbo396@126.com, dliuwenxia@spu.edu.cn Keywords: lignin; urea-formaldehyde resin; binding strength; free formaldehyde Abstract.
Lignin is a reproducible natural macromolecule, and the amount of lignin in nature is only the next to cellulose, but lignin has not been fully utilized in the three main components of lignocellulosic materials.
Materials and Methods Materials Alkali lignin was provided by Shandong Tralin Paper Co., Ltd.
Acknowledgment The project was funded through the Project of Shandong Province Higher Educational Science and Technology Program (J12LF09) and Jinan Youth Star Science and Technology Program (2011-2-0312), National Natural Science Foundation of China (20976099), Shandong Natural Science Foundation (ZR2010CM008).
[2] Feldman D，Banu D，Camoanelli J, “Blends of vinylic copolymer with plasticized lignin: thermal and mechanical properties”, J Appl Polym Sci, 2001, 81 pp 861 [3] Tingda Jiang, “Lignin”, Beijing, Chemical Industry Press, 2001 [4] Huiquan Chen, Yunhuai Gong, “The Situation and Aspect of application for Macromolecule (I)── Cellulose, Lignin and Starch”, Yunnan Chemical Technology, 1996, 11(1) pp 41-45 [5] Yanfang Zhang, Yangqin Zeng, “Preparation of Lignin ModifiedUrea-Formaldehyde Resin”, Journal of Guizhou University of Technology, 2002,(1) pp82-84

Time-history Analysis of Lowpylon Cable-stayed Bridge with moving loads Xiaoqin wang1,a , Wencheng jin1,a 1 Huazhong University of Science and Technology School of civil Engneering and Mechnics, wuhan of Hubei in china aemail:79258706@qq.com Keywords: Cable-stayed Bridge Nonlinear Supperposition Method Moving Load Time-History Analysis Abstract: Established space dynamic analysis model of nonlinear structure in accordance with the unique mechanical characteristics of Lowpylon Cable-stayed Bridge.
For iterative solution conveniently, we propose that the non-linear system motion equations of the of vehicle’s acceleration effect is: (1) is the structure stiffness matrix of the initial time; is the restoring force difference when the materials is nonlinear or elastic.
[2] In Chinanes:Guichun Wang,Jiaying Pan,Qingguo Cheng. dynamic analysis of Railway Bridges in the train, China railway science, 1996,17(4):80-89
Civil engineering journal , 1994. 27(1):1-10
Dynamics and control journal,2010,3(8)：258-262

The Research of Bituminous Mixture Water Stability Based on Aggregate Cleanness Xuedong Guo1, a, Chunmei Gao* 1, 2, b, Hao Wang1, c and Mingliang Zhang1, d 1College of Transportation, Jilin University, Changchun 130022, P.R.China 2 School of Communication Science and Engineering, Jilin Institute of Architecture and Civil Engineering, Changchun 130021, P.R.China a guoxd@jlu.edu.cn,b gaochunmei_2006@126.com,c wha0121@163.com, d z_ml1980@yahoo.com.cn Keywords: Road works; Bituminous mixture; Water stability; Aggregate cleanness; Rate of residual water.
[2] Zhigang Zhang: Hunan Communication Science and Technology (2006), p.25-26, in Chinese
[5] Tuanjie Chen and Runping Jia: Journal of Highway and Transportation Research and Development (2005), p.21-23, in Chinese
[6] Shunwei Chen, Ke Xue and Guizhong Liu: Journal of Hebei University of Technology (2006), p.92-95, in Chinese
[9] Jiaji Yan: Road Construction Materials (China Communications Press, Beijing 2004), in Chinese.

Materials and Methods The area of the Daling River upstream is located at 118°54′-119°58′E and 40°25′-41°44′N (Fig. 1).
Chau: Journal of Cleaner Production Vol. 15 (2007), P. 1568 [3] J.S.
Chen: Principles of river water quality and water quality in China (Science Press, China 2006), in Chinese [4] I.
Li: Journal of Shenyan Architectural and Civil Engineering Institute, Vol. 18 (2002), P. 295 [9] Y.S.
Wu: Environmental Statistics (China Environmental Science Press, China 1991), in Chinese