Optimun Design of Trusses with Discrete Variables and Buckling Constraints
Abstract
An efficient method to solve the least weight design of plane and space trusses is developed. A realistic truss model, including discrete variables and buckling constraints is used.
The solution is obtained solving a sequence of approximate problems in the dual space.
The difficulties introduced by the discrete variables and the buckling constrints are successfully overcome.
A couple of examples shows the effectiveness of the method.
The solution is obtained solving a sequence of approximate problems in the dual space.
The difficulties introduced by the discrete variables and the buckling constrints are successfully overcome.
A couple of examples shows the effectiveness of the method.
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ISSN 2591-3522