PENALTY FUNCTION METHOD FOR OPTIMAL DESIGN OF MULTIPURPOSE VIBRATING BEAMS
- 1 January 1982
- journal article
- research article
- Published by Taylor & Francis in Engineering Optimization
- Vol. 6 (2) , 85-93
- https://doi.org/10.1080/03052158208902458
Abstract
A computational design algorithm is formulated to determine the optimal area distribution of a beam which undegoes free and forced harmonic vibrations during its service life. The structural element has to serve more than one function, and this necessitates a design which meets various requirements. Hence, the constraints on the multipurpose beam involve simultaneously its dynamic response under single or multiple loads and its fundamental frequency. These problems are formulated in a mathematical programming format by expressing the area function in terms of linear splines. The resulting optimization problems are solved using suitable penalty functions. The proposed design method is illustrated by several numerical examples which show the complex tradeoffs involved in the design of multipurpose structures.Keywords
This publication has 11 references indexed in Scilit:
- MINIMUM-MAXIMUM DEFLECTION AND STRESS DESIGN OF BEAMS UNDER HARMONIC EXCITATION BY MATHEMATICAL PROGRAMMINGEngineering Optimization, 1982
- Optimal shape and non-homogeneity of a non-uniformly compressed columnInternational Journal of Solids and Structures, 1979
- Optimal design of multi-purpose tie column of solid constructionInternational Journal of Solids and Structures, 1979
- Homogeneous functionals and structural optimization problemsInternational Journal of Solids and Structures, 1979
- MINIMUM WEIGHT DESIGN OF MULTI-PURPOSE BEAM COLUMNS OF SOLID CONSTRUCTIONEngineering Optimization, 1979
- Existence and Asymptotic Stability of Solutions of an Abstract Integrodifferential Equation with Applications to ViscoelasticitySIAM Journal on Mathematical Analysis, 1978
- Optimization of Vibrating Beams with Respect to Higher Order Natural FrequenciesJournal of Structural Mechanics, 1976
- Optimum design of vibrating cantileversJournal of Optimization Theory and Applications, 1973
- Optimal design of elastic structures for multipurpose loadingJournal of Optimization Theory and Applications, 1970
- Optimal design of multi-purpose structuresInternational Journal of Solids and Structures, 1968