LIGHT WEIGHT DESIGN OF THE SIDES OF A TYPICAL 100 TON HIGH SIDE GONDOLA CAR 790973
The paper describes the application of a general purpose optimization code, PARS to the design of the sides of a 100 ton high side gondola car. PARS (Program for Analysis and Resizing of Structures), a companion code to the SPAR finite element package, is used for optimizing structures modeled by finite elements. The optimization algorithm uses an extended interior penalty function and Newton's method for unconstrained minimization.
The sides of the gondola car are modeled by beam and plate finite elements. Manufacturing requirements are accounted for by design variable linking and the sides are designed subject to stress and displacement constraints. The design is obtained according to the specifications for design, fabrication and construction of freight cars recommended by the Association of American Railroads.
Citation: Haftka, R. and Prasad, B., "LIGHT WEIGHT DESIGN OF THE SIDES OF A TYPICAL 100 TON HIGH SIDE GONDOLA CAR," SAE Technical Paper 790973, 1979, https://doi.org/10.4271/790973. Download Citation
Author(s):
Raphael T. Haftka, Birendra Prasad
Pages: 7
Event:
3rd International Conference on Vehicle Structural Mechanics (1979)
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Optimization
Mathematical models
Fabrication
Logistics
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