This paper presents different strategies for handling very many local strength criteria in structural optimization of laminated composites. Global strength measures using Kreisselmeier-Steinhauser or p-norm functions are introduced for patch-wise parameterizations, and the efficiency of the methods is illustrated for multi-material topology optimization of laminated composite structures including failure criteria. <br/
This research work deals with the design and optimization of a large composite structure. In design ...
The paper is aimed on laminate optimization subjected to maximum strain criterion. The optimization ...
Design of laminated composite plates often leads to macro-mechanical optimization of composite lamin...
The objective of this paper is to present a novel approach for multi-material topology optimization ...
A computationally-efficient strength optimization method tailoring novel composite laminates using l...
This work will give a quick summary of recent developments of the Discrete Material Optimization app...
The demand for efficient lightweight structures grows rapidly in the aerospace sector. Topology opti...
The design optimization of laminated composites using naturally inspired optimization techniques suc...
The design optimization of laminated composite structures is of relevance in automobile, naval, aero...
This paper focuses on criterion functions for gradient based optimization of the buckling load of la...
Robust design of laminated composite structures is considered in this work. Because laminated compos...
In this thesis are developped four numerical models of structural optimization to laminate composite...
Based on materials developed and made available by humans, there are materials that will serve their...
This work concerns a novel large-scale multi-material topology optimization method for simultaneous ...
A method is presented for maximum strength optimum design of symmetric composite laminates subjected...
This research work deals with the design and optimization of a large composite structure. In design ...
The paper is aimed on laminate optimization subjected to maximum strain criterion. The optimization ...
Design of laminated composite plates often leads to macro-mechanical optimization of composite lamin...
The objective of this paper is to present a novel approach for multi-material topology optimization ...
A computationally-efficient strength optimization method tailoring novel composite laminates using l...
This work will give a quick summary of recent developments of the Discrete Material Optimization app...
The demand for efficient lightweight structures grows rapidly in the aerospace sector. Topology opti...
The design optimization of laminated composites using naturally inspired optimization techniques suc...
The design optimization of laminated composite structures is of relevance in automobile, naval, aero...
This paper focuses on criterion functions for gradient based optimization of the buckling load of la...
Robust design of laminated composite structures is considered in this work. Because laminated compos...
In this thesis are developped four numerical models of structural optimization to laminate composite...
Based on materials developed and made available by humans, there are materials that will serve their...
This work concerns a novel large-scale multi-material topology optimization method for simultaneous ...
A method is presented for maximum strength optimum design of symmetric composite laminates subjected...
This research work deals with the design and optimization of a large composite structure. In design ...
The paper is aimed on laminate optimization subjected to maximum strain criterion. The optimization ...
Design of laminated composite plates often leads to macro-mechanical optimization of composite lamin...