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Transmission Performance of Water-based Nano Fluid Based on Computational Fluid Dynamics Zhengzheng Song1,a, Zhangyong Wu1,b, Ziyong Mo1,c 1Faculty of Mechanical and Electrical Engineering, Kunming University of Science and Technology, Kunming 650500 azzsong915@163.com, bzhyongwu63@163.com, c309087849@qq.com Keywords: water-based nano fluids; sedimentation stability; transmission performance; flow field analysis; computational fluid dynamics Abstract.
Experimental Thermal and Fluid Science, 2010, 34 (4): 487-495
Journal of Materials Science and Engineering, 2010, 28 (3): 366-369.

Fig. 2 Fault diagnosis procedure with wavelet packet analysis Acknowledgment It is a project supported by Foundation of office of education, He Nan Province (2011B470005, 12A470007) and Natural Science Foundation of He Nan Province (122102210416，112102210339).
Advanced Materials Research Vols.341-342(2012), pp.780-784 [5] LIU Haibo, YANG Jianwei, CAI Guoqiang, etc.
Journal of hebei Polytechnic University( Natural Science Edition), 2008, 30(4):81-85 [7] YANG Jianwei, CAI Guoqiang, YAO Dechen, etc.
CHINA RAILWAY SCIENCE, 2010, 31(6):68-73 [8] WANG Wu, TANG San, ZHANG Yuan-min.

Materials and methods The tested soils were collected from pepper plantation of Xinying farm (N19.80°, E109.58°) field in Danzhou City of Hainan Province.
Acknowledgements This work was financially supported by the Hainan Natural Science Foundation (312055) and Fundamental Research Funds for Environment and Plant Protection Institute, CATAS (NO.2013hzs1J008).
Pesticide Science, Vol. 52 (1998), p. 229-240
Journal of Industrial Microbiology & Biotechnology, Vol. 25(2000), p. 93-99
Public Communication of Science & Technology, Vol. 11(2012), p.106-108.

Jeng, A maximally permissive deadlock prevention policy for FMS based on Petri net siphon control and the theory of regions, IEEE transactions on automation science and engineering 5 (2008)
Wen, Design and implementation of emulators for a real-world automated manufacturing systems using Scenario, Materials Science Forum 505-507 (2006) 1141-1146
Huang, Deadlock prevention for flexible manufacturing systems in sequence resource allocation systems, Journal of Information Science and Engineering 23 (2007) 215-231.

Wang 2 1 Instrumentation Science & Technology Postdoctoral Station Hefei University of Technology, Hefei 230009, China 2 Detecting & Control Engineering Center, Chongqing Institute of Technology, Chongqing, China Keywords: Position Measurement, Predictive Measurement, Time Grating, CNC Rotary Table Abstract.
Acknowledgements This project is funded by China Postdoctoral Science Foundation (No. 20060400717) and National Natural Science Foundation of China (No. 50575235).
[3] Shih-Ming Wang, Han-Jen Yu, Hung-Wei Liao: The International Journal of Advanced Manufacturing Technology, Vol. 28(2006), pp. 518-526
Chen: Solid State Phenomena: Mechatronic Systems and Materials, Vol. 113 (2006), pp. 435-441

Research on Workflow management of Multi-Disciplinary collaborative design Based on Ontology Zeng Qing-liang1,a , Liu Zhi-hai 1,b , Wan Li-rong1,c , Zhao Yong-hua 1,d 1 College of Mechanical and Electrical Engineering, Shandong University of Science and Technology, Qingdao 266510, China a qlzeng@sdust.edu.cn, b zhihliu@126.com, c wanlr666@163.com, d manship@163.com Keywords: Ontology; workflow management; Multi-Disciplinary; collaborative design Abstract.
Collaborative design of mechanical and electrical products is a complex systematic project, mainly related to machinery, materials, movement, control, simulation and optimization, etc.
Acknowledgement The paper is supported by the National Natural Science Foundation of China (No.50875158), the National Key Technology R&D Program of China (No.2006BAB11B05) and Shandong Natural Science Foundation for Distinguished Young scholars of China (No.
Journal of Software.

Exergy analysis of cascade Ethylene-Propane Rankine cycle with cold energy recovery of LNG Hongmei Zhu1,a, Hongwei Liu 1,b and Heng Sun2,c 1Architectural Engineering Institute, North China Institute of Science and Technology, Beijing, 101601, China 2 Beijing Key Laboratory of Urban Oil and Gas Distribution Technology, China University of Petroleum, Beijing 102249, China a shqzhu@163.com, b lhwwzb@ncist.edu.cn, c bddukesh@163.com Keywords: LNG, Cold Recovery, Exergy analysis, Cascade cycle Abstract.
Acknowledgement It is a project supported by the science and technology program of North China Institute of Science and Technology (No.
Sugiyama: Applied Energy, Vol. 60(1998), p.169 [7] Feifei Bai, Zaoxiao Zhang: Chinese Journal of Chemical Engineering, Vol. 16(2008), p. 95 [8] Heng Sun, Hongmei Zhu, Dan Shu: Applied Mechanics and Materials Vols. 71-78 (2011) p. 1769 [9] Hongmei Zhu, Heng Sun and Hongwei Liu, Parameters analysis of a cascade Ethylene-Propane Rankine cycle with cold energy recovery of LNG

Since then, TiO2 has attracted a great deal of attention in environmental applications such as the production of self-clean materials [2], the decomposition of water [3-4], dye-sensitized solar cells [5-6], the mineralization of toxic organic compounds [7] and so on.
Acknowledgements This work was supported by the National Natural Science Foundation of China (No. 20973124 ).
The authors thank Tianjin Key Laboratory of Low Dimensional Materials Physics and Preparing Technology.
And the authors are grateful to Photocatalytic Materials Center, National Institute for Materials Science, Japan.
A, Vol. 101 (1997)p. 8057 [19] Gonghu Li, Shannon Ciston, et al, Journal of Catalysis, Vol. 253 (2008)p. 105–110 [20] S.

%Ti (denoted as BS40-1.0Ti) pre-alloyed powder (Nihon atomized metal powders Co.) was used as raw material.
Acknowledgements This work was supported by the project of the Japan Science and Technology Agency (JST).
[4] Shufeng Li, Hisashi Imai, Haruhiko Atsumi, Katsuyoshi Kondoh, Journal of materials science, 45(2010) 5669-5675
[7] Jones H., Materials letter 26 (1996) 133-136
[8] Katgerman L., Dom F., Materials science and engineering A 375-377 (2004) 1212-1216

Uniform Design and Dynamic Finite Element Analysis for Permanent Deformation Improvement of an On-Road Bicycle Frame Undergoing the Drop-Mass Impact Test Yung-Chang Cheng1, a, Cheng-Kang Lee2,b, Cho-Pei Jiang3,c 1National Kaohsiung First University of Science and Technology, Kaohsiung, Taiwan 2Department of Industrial Engineering and Management, Cheng Shiu University, Kaohsiung, Taiwan 3Department of Power Mechanical Engineering, National Formosa University, Yunlin, Taiwan ayccheng@nkfust.edu.tw, bleeck588@csu.edu.tw, ccpjiang@nfu.edu.tw Keywords: Uniform design, Dynamic finite element analysis, Drop-mass impact test, On-road bicycle frame, ANSYS/LS-DYNA.
In the pre-processing stage, HyperMesh software is employed to generate qualified finite elements and to designate material properties and contact surface setting.
The material properties are given in Table 1.
Guo: Simulation about Sports Bicycle Frame Based on the Experiments, Applied Mechanics and Materials, Vol. 37-38 (2010), p. 1142-1147
Sinclair: Application of Uniform Design in Optimization of Three Stage Ageing of Al–Cu–Mg Alloys, Journal of Materials Science, Vol. 42, No.12 (2007), p. 4398-4405.