This paper presents modelling and a FEM analysis of dynamic properties of a thermally optimal two-phase composite structure. Simulations were provided for 2D models. At the first step, topology optimization was performed, where an internal energy was minimized. At the second step, analysis of dynamic properties was executed. Calculations allowed to determine eigenfrequencies and the mode shape of the structure. Solid isotropic material with penalization (SIMP) model was used to find the optimal solution. The optimization algorithm was based on SNOPT method and Finite Element Method
Different from the independent optimization of macrostructures or materials, a two-scale topology op...
Composite materials are used to produce multi-objective structures such as fluid reservoirs, transmi...
Porous materials have gained wide use in high level engineering structures due to their high stiffne...
This paper presents a dynamic analysis of earlier optimized auxetic structure. This optimization bas...
This paper presents the bidirectional evolutionary structural optimization (BESO) method for the des...
This paper studies the influence of heat conduction in both structural and material designs in two d...
A method is presented for the prediction of optimal configurations for two-material composite contin...
This paper introduces a two-scale topology optimization approach by integrating optimized structures...
In this research, a topology optimization with constraints of structural strength and thermal conduc...
Historically, many efforts in optimal structural designs were simply concerned with the static behav...
In this paper, a method for the concurrent topology optimization of macrostructural material distrib...
Topology optimization is a load path based design method that optimizes material distribution by fi...
This paper presents a finite-element analysis of honeycomb and re-entrant honeycomb structures made ...
The increasing use of bre-reinforced composite materials in the manufacturing of high performance st...
The topology optimization method of material microstructure of piezoelectric composite structures is...
Different from the independent optimization of macrostructures or materials, a two-scale topology op...
Composite materials are used to produce multi-objective structures such as fluid reservoirs, transmi...
Porous materials have gained wide use in high level engineering structures due to their high stiffne...
This paper presents a dynamic analysis of earlier optimized auxetic structure. This optimization bas...
This paper presents the bidirectional evolutionary structural optimization (BESO) method for the des...
This paper studies the influence of heat conduction in both structural and material designs in two d...
A method is presented for the prediction of optimal configurations for two-material composite contin...
This paper introduces a two-scale topology optimization approach by integrating optimized structures...
In this research, a topology optimization with constraints of structural strength and thermal conduc...
Historically, many efforts in optimal structural designs were simply concerned with the static behav...
In this paper, a method for the concurrent topology optimization of macrostructural material distrib...
Topology optimization is a load path based design method that optimizes material distribution by fi...
This paper presents a finite-element analysis of honeycomb and re-entrant honeycomb structures made ...
The increasing use of bre-reinforced composite materials in the manufacturing of high performance st...
The topology optimization method of material microstructure of piezoelectric composite structures is...
Different from the independent optimization of macrostructures or materials, a two-scale topology op...
Composite materials are used to produce multi-objective structures such as fluid reservoirs, transmi...
Porous materials have gained wide use in high level engineering structures due to their high stiffne...