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Journal of Applied Sciences

Year: 2013 | Volume: 13 | Issue: 22 | Page No.: 5391-5397
DOI: 10.3923/jas.2013.5391.5397
Design of the Three Gorges Ship Elevator’s Gate Water Seal and Seal’s Working Performance Analysis
Bin Yang, Li-hua Liu and Wei Dong

Abstract: Based on simulation study of high-pressure gate water seal, we have designed the Three Gorges ship elevator’s gate water seal and have analyzed the seal working performance. In the design process, we selected some relatively optimal seal sections and materials firstly and compared with their working performance about dorsal cavity leakproofness, free overhang of seal head, watertight ability of seal head and gate’s hoisting force by simulation. Finally, we selected optimal seal section and materials. Before then, to design water seal mainly depended on experience and experiment. The design of the Three Gorges ship elevator’s gate water seal has provided a standard design reference based on calculation analysis.

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How to cite this article
Bin Yang, Li-hua Liu and Wei Dong, 2013. Design of the Three Gorges Ship Elevator’s Gate Water Seal and Seal’s Working Performance Analysis. Journal of Applied Sciences, 13: 5391-5397.

Keywords: Water seal, simulation, leakproofness, free overhang, watertight ability and hoisting force

REFERENCES
  • Alan, N.G., 2001. Engineering with Rubber-How to Design Rubber Component. 1st Edn., Carl Hanser Verlag, Munich, China

  • Kuang, Z., 1989. Tensor Analysis. Xi'an Jiao Tong University Press, Xi'an, China

  • Lei, Y., L. Liu, W. Chen, Z. Ou and D. Wang, 2010. Research on non-linear computation of large section water seal for bearing and load transfer. J. Hydroelectric Eng., 2: 228-232.
    Direct Link    

  • Pidaparti, R.M.V. and A.W. May, 2001. Micromechanical analysis of fatigue cracks in cord-rubber composites. Composites Struct., 54: 459-465.
    CrossRef    

  • Liu, L.H., W. Xiong, H.Z. Zhang and Q.J. Zhang, 2007. Research on viscoelasticity of high pressure waterstopmaterial. Eng. Mechannics, 7: 189-192.
    Direct Link    

  • Liu, L., D. Wang, Z. Ou and X. Wei, 2011. Nonlinear calculation on the pressure-filled telescopic water seal based on the Ogden formula. Acta Mechanica Solida Sinica, 1: 102-107.
    Direct Link    

  • Boyce, M.C. and E.M. Arruda, 2000. Constitutive models of rubber elasticity: A review. Rubber Chem. Technol., 73: 504-523.
    CrossRef    Direct Link    

  • Nagendrav and R.T. Akshantala, 2000. A mechanistic based model for predicting fatigue life of composite laminates. J. Mater. Sci. Eng., A285: 303-313.

  • Yang, B., L. Liu and S.K. Zhang, 2011. Fitting theory and method of hyper-elastic materials nonlinear constitutive relations base on BP neural network. Applied Mechanics Mater., 137: 36-41.
    CrossRef    Direct Link    

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