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Acknowledgements This work was financially supported by the National Science and Technology Major Project (2011ZX05026-003-02 Prototype Development of Subsea Connector for manifolds) and National High Technology Research and Development Program (863 Program, 2012AA09A205 Key Technical Research of Subsea Tree and Complete Sets of Equipment Development).
,Fostervoll H.Dry hyperbaric welding of subsea pipelines.Welding Journal,2006,85(6):52-55P [5] R.J.
Clem: submitted to Journal of Materials Research (2003) [6] Information on http://www.fmctechnologies.com [7] Information on http://www.oilstates.com/fw/main/Home-207.html

.; The product data layer is used to express design requirements, part parameters, material specifications and other non-geometry data related to product.
The data information includes product’s geometry and non-geometry data such as product customization requirement, specification, part parameters, production plan and material demand etc.
[2] Ligang Tai, Haiying Guo, Tingxiu Zhong, and Dianqi Li, “Knowledge Acquisition Method for Case-Knowledge-Based Product Family Design,” Journal of Harbin Institute of Technology (New Series), vol. 14,pp. 623-628, (2007)
[3] “Case-Based Reasoning Research and Development: 7th International Conference on Case-Based Reasoning,” ICCBR 2007 Proceedings, Lecture Notes in Computer Science, 4626 LNAI, (2007)
Li, “Model-Based Rapid Redesign Using Decomposition Patterns, ”Journal of Mechanical Design, Transactions of the ASME, vol. 129, pp. 283-294, (2007)

The cutting tool parameters were γo=12º, κ =45º, αn =8º, λs = 0. the material of cutting tool was YT15.
Testing material was 45# steel and its hardness was HB243.
Journal of Neural Computation, 1299-1319, Oct.1998
Feature extraction via KPCA for classification of gait patterns, Human Movement Science 26,393-411,2007
Journal of Biomechanics,38, 401-408.2005

Non-stationary seismic analysis of a homogeneous earth dam Material and parameters of the embankment and dam foundation The homogeneous earth dam is the main dam of a real reservoir.
The Duncan-Chung static model parameters of the embankment material are: ;;;;.
Acknowledgements This work was financially supported by the China Postdoctoral Science Foundation (20080431063).
Journal of Engineering Mechanics, 124(10); 1142-1150
Journal of Engineering Mechanics, 130(8); 942-951.

Acknowledgment This work was supported by the Chongqing Key Laboratory of Fire and Explosion Safety (CSTC2010CA0005), and Chongqing natural science fund (CSTC2011JJA00017 and CSTC2012JJA900015).
References [1] OuYang Xiaodang: Removal ofoil steam before purge oftanks, Oil Depot and Gas Station， Vol. 13(2004), p.37 [2] Li Xuanmin: Ventilation method used for oil tank maintenance, Petroleum Engineering Construction，Vol. 30(2004),p.13 [3] Song Shengkui, Yang Xiaojun and Tang Li: Fireproof Measures For The CleanOut Operation of Oil Tanks, Petrochem Ical Safety Technology, Vol. 22(2006), p.19 [4]Chen Siwei, DuYang: Numerical simulation offlammable pipe gas explosioninhibitionwithinert gas, NaturalGas Industry，Vol. 26(2006), p.137 [5] Zhang Peili, Du Yang, Ou Yihong, et al: Numerical simulation research of oil-gas inert replacement process in oil tank, Journal of Logistical Engineering University, Vol. 26(2010),p. 25 [6] Zhang Peili, Du Yang, Zhang Pei, et a1: Mathematical calculation and simulation experiment of inert replacement time in oil tank, Journal of Logistical Engineering University, Vol. 26(2010), p. 17 [7]Wang Peiwen, Du Yang, Zhou Dewen. et al: Experimental study
on catalytic combustion of gasoline vapor, Advanced Materials Research, Vol. 549(2012), p. 432 [8]Zhou Chunhui, Li Xiaonian, Ge Zhonghua: Latest Study and Development Prospects ofPrecious Metal Palladium Catalysts, Chemical Production and Technology, Vol. 7(2000), p. 12

Introduction In China, the hydraulic fills of reclamation projects are mostly the navigation channel dredged materials or marine sludge such as offshore seabed sludge to achieve double benefits of channel dredging and land reclamation.
Science press, Beijing, 2010.
Journal of Engineering Geology, 2005, 13(2): 285-288.
Chinese Journal of Applied Ecology. 2005, 16(8): 1558- 1562.

Virtual Prototyping and Validation of an Automatic Washing Machine Sufang Fu1,2,a, Han Gao 1,b , Qiuju Zhang2,c , Xiqu Chen1,d and Xueming Zhang1,2,e 1 Henan Institute of Science and Technology, Xinxiang, Henan, 453003, China 2 School of Mechanical Engineering, Jiangnan University, Wuxi, Jiangsu, 214122, China a fsufang@163.com, bhangao888@sohu.com, czhangqiuj@jiangnan.edu.cn, d chenxq183@qq.com, e xmzhang@hist.edu.cn Keywords: Washing Machine, Virtual Prototyping, Spin-Dry Cycle, Validation.
Soedel: Journal of Sound and Vibration.Vol. 188 (1995), p. 301 [3] O.S.Turkay, B.Kiray, A.K.Tugcu and I.
Yun: Journal of Sound and Vibration.Vol. 257 (2002), p. 3 [5] A.
Simoes: Materials and Design.Vol.24 (2003), p. 331 [6] Information on Http://www.estech.co.jp/list.pdf/est101.pdf [7] C.M.

Meanwhile, aim at the complexity of design objects in the animation design, the key problem is to classify and abstract the commonly used materials, intermediate products and final results—mostly multimedia data –into a unified description.
[2] Yuhua Qin, “CSCW Technology Research and Development”, Inner Mongolia Science and Technology and Economic, 2005, 12, 124-125(In Chinese)
“A Method To Solve Constraint Conflict Based On The Minimal Conflict Sets”, Journal of Engineering Graphics, Accepted.
Journal on Communications, 2006, 27(11), pp: 24-30.

Finger Milling-cutter NC Generating Spiral Bevel Gear Tooth Surfaces & Its Machining Simulation Genggeng Li 1,a, Xiaozhong Deng 1,2,b and Bingyang Wei 2,c 1 School of Mechatronics, Northwestern Polytechnical University, Xi’an 710072, China 2School of Mechatronics Engineering, Henan University of Science and Technology, Luoyang 471003, China arichird945@163.com, bdxz01@126.com, cbywei29@163.com Keywords: Spiral bevel gear, Finger milling-cutter, NC generating, Machining simulation Abstract.
High-speed machining with the increase production efficiency, reducing the cutting forces and improving machining accuracy and surface quality, reducing production costs, and high-hard material can be processed and many other advantages, has been widely used in many manufacturing industry, and has achieved very good technical and economic benefits[2,3].
If cutter material chosen is proper, hardened tooth surfaces quenched can be fine finished, then milling replacing grinding in tooth surfaces finishing will be realized.
Li: Journal of Guilin college of aerospace technology, (2008) No.3, pp.4-8
Deng: Chinese Journal of Mechanical Engineering.

Chiu Department of Mechanical Engineering, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, China Keywords: Grinding, Composite Control, Displacement-Frequency Modulator Abstract.
In addition, the displacement of the grinding wheel is measured by a Renishaw laser interferometer, which includes a linear reflector, linear interferometer, laser, environmental compensation unit, air temperature sensor, material temperature sensor, metrology module, and a computer.
For this case, the actual displacement ye(t) was 4.36 µm only, indicating a backlash of 18.64 µm, which is very significant, due to the design of the existing Modulator Control Panel Fig. 2 Developed modulator and the grinding machine control panel a - Main Motor b - Precision Positioning Table c - Machine Table d - Machine Controller Oscilloscope PC and Renishaw Metrology Module Renishaw Laser and Environmental Compensation Unit Laser Interferometer Air Temperature Sensor Grinding Wheel Lens Holder Linear Reflector PC Modulator Grinding Machine PC and Data Acquisition Card Signal Amplifier of Capacitive Sensor D/A Converter PZT Amplifier A/D Converter Material Temperature Sensor Brushless Motor Motor Controller PC Stepping Motor Induction Motor a b c d Fig. 3 Block diagram of the wheel infeed system Stepping Motor u(t) s kf uw(t) u(t) (a) Wheel infeed system (b) Block
Tse: Journal of International Societies for Precision Engineering and Nanotechnology, Vol. 26 (2002), p. 83
Brien: Proc. the Institution of Mechanical Engineers - Journal of Engineering Manufacture, Part B, Vol. 211 (1997), p. 233