This paper is to present a thermomechanical topology optimization formulation. By designing structures that support specific nondesignable domain, optimization is to suppress the stress level in the nondesignable domain and maintain global stiffness simultaneously. A global stress measure based on p-norm function is then utilized to reduce the number of stress constraints in topology optimization. Sensitivity analysis employs adjoint method to derive the global stress measure with respect to the topological pseudodensity variables. Some particular behaviors in thermomechanical topology optimization of elastic supports, such as the influence of different thermomechanical loads and the existence of intermediate material, are also analyzed num...
Topology optimization is a load path based design method that optimizes material distribution by fi...
Topology optimization is commonly used to distribute a given amount of material to obtain the stiffe...
Topology optimization is an important basis for the design of components. Here, the optimal structur...
The focus of this paper is on thermo-elastic topology optimization where the structure is subject to...
At elevated temperature environments, elastic structures experience a change of the stress-free stat...
Apart from mechanical actions, structural components in the construction industry may be subjected t...
This is a study on the development of a novel multi-material topology optimization scheme considerin...
In this paper, we introduce a level set topology optimization formulation considering coupled mechan...
In this research, a topology optimization with constraints of structural strength and thermal conduc...
This work presents level-set topology optimization of structures considering nonlinear thermoelastic...
Topology optimization is a design optimization method that generates structures with complex geometr...
This paper develops and evaluates a method for handling stress constraints in topology optimization....
Structural topology optimization is a mathematical approach which seeks optimal material distributio...
Sizing and shape structural optimization problems are normally stated in terms of a minimum weight a...
[[abstract]]This paper presents an integrated design process of structural topology optimization in ...
Topology optimization is a load path based design method that optimizes material distribution by fi...
Topology optimization is commonly used to distribute a given amount of material to obtain the stiffe...
Topology optimization is an important basis for the design of components. Here, the optimal structur...
The focus of this paper is on thermo-elastic topology optimization where the structure is subject to...
At elevated temperature environments, elastic structures experience a change of the stress-free stat...
Apart from mechanical actions, structural components in the construction industry may be subjected t...
This is a study on the development of a novel multi-material topology optimization scheme considerin...
In this paper, we introduce a level set topology optimization formulation considering coupled mechan...
In this research, a topology optimization with constraints of structural strength and thermal conduc...
This work presents level-set topology optimization of structures considering nonlinear thermoelastic...
Topology optimization is a design optimization method that generates structures with complex geometr...
This paper develops and evaluates a method for handling stress constraints in topology optimization....
Structural topology optimization is a mathematical approach which seeks optimal material distributio...
Sizing and shape structural optimization problems are normally stated in terms of a minimum weight a...
[[abstract]]This paper presents an integrated design process of structural topology optimization in ...
Topology optimization is a load path based design method that optimizes material distribution by fi...
Topology optimization is commonly used to distribute a given amount of material to obtain the stiffe...
Topology optimization is an important basis for the design of components. Here, the optimal structur...