This paper presents the bidirectional evolutionary structural optimization (BESO) method for the design of two-phase composite materials with optimal properties of stiffness and thermal conductivities. The composite material is modeled by microstructures in a periodical base cell (PBC). The inverse homogenization method is used to derive the properties of effective bulk modules and thermal conductivities. BESO procedures are presented to optimize the two individual properties and their various combinations. Two numerical examples are studied. The effectiveness of BESO has been demonstrated by good comparisons to the benchmark microstructures and the Hashin-Shtrikman bounds
This paper introduces a hierarchical concurrent design approach to maximizing the natural frequency ...
This paper presents modelling and a FEM analysis of dynamic properties of a thermally optimal two-ph...
We present a numerical method to find specific composite microstructures with targeted effective pro...
Heat and mass transfer in macellular materials signifies an important topic of research for a range ...
This paper presents a computational technique for the topological design of microstructures for func...
Different from the independent optimization of macrostructures or materials, a two-scale topology op...
This paper introduces an alternative approach for the topological design of microstructures of mater...
This paper presents a bidirectional evolutionary structural optimization (BESO) method for designing...
This paper introduces a two-scale topology optimization approach by integrating optimized structures...
AbstractThis paper deals with topology optimization of composite structure using Bi-directional Evol...
This paper deals with topology optimization of composite structure using Bi-directional Evolutional ...
The increasing use of bre-reinforced composite materials in the manufacturing of high performance st...
This paper studies the influence of heat conduction in both structural and material designs in two d...
The aim of this study was to design isotropic periodic microstructures of cellular materials using t...
A method for the multi-scale design of composite thermoelastic macrostructure and periodic microstru...
This paper introduces a hierarchical concurrent design approach to maximizing the natural frequency ...
This paper presents modelling and a FEM analysis of dynamic properties of a thermally optimal two-ph...
We present a numerical method to find specific composite microstructures with targeted effective pro...
Heat and mass transfer in macellular materials signifies an important topic of research for a range ...
This paper presents a computational technique for the topological design of microstructures for func...
Different from the independent optimization of macrostructures or materials, a two-scale topology op...
This paper introduces an alternative approach for the topological design of microstructures of mater...
This paper presents a bidirectional evolutionary structural optimization (BESO) method for designing...
This paper introduces a two-scale topology optimization approach by integrating optimized structures...
AbstractThis paper deals with topology optimization of composite structure using Bi-directional Evol...
This paper deals with topology optimization of composite structure using Bi-directional Evolutional ...
The increasing use of bre-reinforced composite materials in the manufacturing of high performance st...
This paper studies the influence of heat conduction in both structural and material designs in two d...
The aim of this study was to design isotropic periodic microstructures of cellular materials using t...
A method for the multi-scale design of composite thermoelastic macrostructure and periodic microstru...
This paper introduces a hierarchical concurrent design approach to maximizing the natural frequency ...
This paper presents modelling and a FEM analysis of dynamic properties of a thermally optimal two-ph...
We present a numerical method to find specific composite microstructures with targeted effective pro...