Hidrolik Silindir Tasarımı Ve Optimizasyonunda Arı Algoritmasının Uygulanması

Sözen, Betül; Şahi̇n, Ömer Sinan; Kalyoncu, Mete

doi:10.36306/konjes.1129467

Konya Journal of Engineering Sciences

2022

DOI: 10.36306/konjes.1129467

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Hidrolik Silindir Tasarımı Ve Optimizasyonunda Arı Algoritmasının Uygulanması

Betül Sözen

Ömer Sinan Şahi̇n

Mete Kalyoncu

Abstract: In this study, mass minimization of a simple double-acting hydraulic cylinder has been studied using The Bees Algorithm (BA) for a specific force and known material, considering the buckling and pressure constraints. A Hydraulic cylinder is a hydraulic actuator that creates linear movement by converting hydraulic energy back to a mechanical movement. Hydraulic-driven working machines are widespread in the industry today. Hydraulic cylinders are used in mobile applications such as container lifting devices, exc… Show more

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2024

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The optimal design of composite overwrapped pressure vessels based on geodesic dome trajectories using population-based techniques

Coskun,

Sahin,

Sen

et al. 2024

Proceedings of the Institution of Mechanical Engineers, Part C:

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Pressure vessels are frequently fabricated using composite materials which stand out with their high strength-to-weight ratio, and provide considerable advantages compared to conventional steel ones. In our previous study, the impacts of Polar Opening Radius (POR) on the mechanical characteristics of Composite Overwrapped Pressure Vessels COPVs were numerically examined, and it was determined that effective volume and structural weight responses improved with higher POR, but significant deterioration took place in first-ply interlaminar shear stress (ILSS) responses after 20 mm POR. Therefore, to achieve the best possible mechanical and structural behaviors, the present study aimed to discover an optimum POR that provides maximum internal volume as well as minimum weight and ILSS responses. In this regard, the optimum geodesic dome trajectory based on the 10–30 mm POR range was determined using the Bees Algorithm (BA) and the Particle Swarm Optimization (PSO). According to the findings, the optimum POR was found as 17.9643 and 17.9671 mm due to the BA and PSO algorithms, respectively. Moreover, first-ply ILSS, structural weight and effective internal volume for the optimal COPVs design were achieved as 52.444 MPa, 1070.81 g, and 2721.94 cm3 from the BA, and thus COPVs with maximum strength and minimum structural weight has been designed. In this way, thanks to the optimization studies, an approximately 18.31% improvement in ILSS responses was achieved despite the negligible deterioration in weight and volume compared to the COPVs with a 30 mm POR.

show abstract

The optimal design of composite overwrapped pressure vessels based on geodesic dome trajectories using population-based techniques

Coskun,

Sahin,

Sen

et al. 2024

Proceedings of the Institution of Mechanical Engineers, Part C:

View full text Add to dashboard Cite

show abstract

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Hidrolik Silindir Tasarımı Ve Optimizasyonunda Arı Algoritmasının Uygulanması

Cited by 1 publication

References 16 publications

The optimal design of composite overwrapped pressure vessels based on geodesic dome trajectories using population-based techniques

The optimal design of composite overwrapped pressure vessels based on geodesic dome trajectories using population-based techniques

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