期刊
VEHICLE SYSTEM DYNAMICS
卷 53, 期 10, 页码 1455-1479出版社
TAYLOR & FRANCIS LTD
DOI: 10.1080/00423114.2015.1051548
关键词
cable element; truss element; analytical expression; nonlinearity; catenary-pantograph interaction; equilibrium state; pre-sag
资金
- National Natural Science Foundation of China [U1434203, 51377136, 51405401]
- Scientific Research and Development Program for Railway Ministry [2013J010-B]
Due to the intrinsic nonlinear characteristics and complex structure of the high-speed catenary system, a modelling method is proposed based on the analytical expressions of nonlinear cable and truss elements. The calculation procedure for solving the initial equilibrium state is proposed based on the Newton-Raphson iteration method. The deformed configuration of the catenary system as well as the initial length of each wire can be calculated. Its accuracy and validity of computing the initial equilibrium state are verified by comparison with the separate model method, absolute nodal coordinate formulation and other methods in the previous literatures. Then, the proposed model is combined with a lumped pantograph model and a dynamic simulation procedure is proposed. The accuracy is guaranteed by the multiple iterative calculations in each time step. The dynamic performance of the proposed model is validated by comparison with EN 50318, the results of the finite element method software and SIEMENS simulation report, respectively. At last, the influence of the catenary design parameters (such as the reserved sag and pre-tension) on the dynamic performance is preliminarily analysed by using the proposed model.
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