Add to ORKGThis paper presents a method for topology optimization of periodic structures using the bi-directional evolutionary structural optimization (BESO) technique. To satisfy the periodic constraint, the designable domain is divided into a certain number of identical unit cells. The optimal topology of the unit cell is determined by gradually removing and adding material based on a sensitivity analysis. Sensitivity numbers that consider the periodic constraint for the repetitive elements are developed. To demonstrate the capability and effectiveness of the proposed approach, topology design problems of 2D and 3D periodic structures are investigated. The results indicate that the optimal topology depends, to a great extent, on the defined unit cel...
This paper presents a bidirectional evolutionary structural optimization (BESO) method for designing...
Novel and efficient structural and material designs can be realized by topology optimization that is...
Similar periodic structures have been widely used in engineering. In order to obtaining the optimal ...
This paper proposes a method for topology optimization of periodic structures on dynamic problems by...
This paper persents a method of topological stiffness optimization for periodic structures. The peri...
This thesis investigates topology optimization techniques for periodic continuum structures at the m...
A topology optimization method is proposed for periodic structures when unit cells have different ge...
Based on the bi-direction evolutionary structural optimization (BESO) method, a concurrent two-scale...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents topology optimization of geometrically and materially nonlinear structures using...
This paper presents a new approach to designing periodic microstructures of cellular materials. The ...
This paper presents a bidirectional evolutionary structural optimization (BESO) method for designing...
This paper presents a bidirectional evolutionary structural optimization (BESO) method for designing...
Novel and efficient structural and material designs can be realized by topology optimization that is...
Similar periodic structures have been widely used in engineering. In order to obtaining the optimal ...
This paper proposes a method for topology optimization of periodic structures on dynamic problems by...
This paper persents a method of topological stiffness optimization for periodic structures. The peri...
This thesis investigates topology optimization techniques for periodic continuum structures at the m...
A topology optimization method is proposed for periodic structures when unit cells have different ge...
Based on the bi-direction evolutionary structural optimization (BESO) method, a concurrent two-scale...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents a concurrent topology optimization methodology for minimizing the frequency resp...
This paper presents topology optimization of geometrically and materially nonlinear structures using...
This paper presents a new approach to designing periodic microstructures of cellular materials. The ...
This paper presents a bidirectional evolutionary structural optimization (BESO) method for designing...
This paper presents a bidirectional evolutionary structural optimization (BESO) method for designing...
Novel and efficient structural and material designs can be realized by topology optimization that is...
Similar periodic structures have been widely used in engineering. In order to obtaining the optimal ...