Publication:
Butterfly optimization algorithm for optimum shape design of automobile suspension components

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Yıldız, Betül Sultan
Yıldız, Ali Rıza
Albak, Emre İsa

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Abderazek, H.
Sait, S.
Bureerat, S.

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Walter de Gruyter

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Abstract

This article presents an implementation of one of the latest optimization methods of obtaining light vehicle designs. First, the problem of coupling with a bolted rim is optimized using the butterfly optimization algorithm (BOA). Finally, the BOA is used to solve the shape optimization of a vehicle suspension arm. It is utilized from the Kriging metamodeling method to obtain equations of objective and constraint functions in shape optimization. At the end of the research effort in this paper, the weight reduction of the suspension arm by using the BOA is 32.9%. The results show the BOA's ability to design better optimum components in the automotive industry.

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Keywords

Butterfly optimization algorithm, Coupling with bolted rim, Suspension arm, Shape optimization, Kriging, Particle swarm optimization, Symbiotic organisims search, Charged system search, Structural design, Topology design, Multiobjective optimization, Differential evolution, Gravitational search, Global optimization, Lightweght design, Automobile suspensions, Automotive industry, Suspensions (components), Constraint functions, Light vehicles, Metamodeling methods, Optimization algorithms, Optimization method, Optimum shape design, Research efforts, Weight reduction, Materials science

Citation

Yıldız, B. S. vd. (2020). "Butterfly optimization algorithm for optimum shape design of automobile suspension components". Materials Testing, 62(4), 365-370.

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