Multi-Objective Topology Optimization of Thin-Plate Structures Based on the Stiffener Size and Layout DOI Open Access
Qin Yin, Jie Guo, Yingzhe Kan

и другие.

Electronics, Год журнала: 2024, Номер 13(24), С. 4968 - 4968

Опубликована: Дек. 17, 2024

To address the limitations of existing optimization methods that focus on single objectives or neglect stiffener features, a multi-objective topology (MOTO) method is proposed based size and layout. By constraining initial structural performance parameters, optimal height determined through optimization. Based height, single-objective used to achieve best material distribution. The width treated as design variable, while MOTO performed load point displacement, first natural frequency, mass, thereby yielding an performance. Finally, multi-dimensional analysis width, dynamic static characteristics stiffened thin-plate structure conducted. results indicate optimized layout considerably improved. Compared structure, maximum average displacements are reduced by 23.26% 8.62%, respectively. frequency increases 3.81%, resonance amplitude overall mass decrease 39.97% 1.99%, achieves lightweight maintaining better stiffness low-frequency vibration resistance. feasibility effectiveness validated.

Язык: Английский

Multi-Objective Topology Optimization of Thin-Plate Structures Based on the Stiffener Size and Layout DOI Open Access
Qin Yin, Jie Guo, Yingzhe Kan

и другие.

Electronics, Год журнала: 2024, Номер 13(24), С. 4968 - 4968

Опубликована: Дек. 17, 2024

To address the limitations of existing optimization methods that focus on single objectives or neglect stiffener features, a multi-objective topology (MOTO) method is proposed based size and layout. By constraining initial structural performance parameters, optimal height determined through optimization. Based height, single-objective used to achieve best material distribution. The width treated as design variable, while MOTO performed load point displacement, first natural frequency, mass, thereby yielding an performance. Finally, multi-dimensional analysis width, dynamic static characteristics stiffened thin-plate structure conducted. results indicate optimized layout considerably improved. Compared structure, maximum average displacements are reduced by 23.26% 8.62%, respectively. frequency increases 3.81%, resonance amplitude overall mass decrease 39.97% 1.99%, achieves lightweight maintaining better stiffness low-frequency vibration resistance. feasibility effectiveness validated.

Язык: Английский

Процитировано

1