The method of topological optimization is based on a mathematical algorithm, which is based on the distribution and intensity of detail stress on the investigated component. It was developed using the Rhino-Grasshopper theory. This is a complicated FEM analysis with the help of the Nastran solver in the Siemens NX software environment. The topology detail is controlled by the degree of iteration of the algorithm, changing the size and distribution of the elements in relation to the incoming force stresses of the FEM simulation. The goal of topological optimization is a clearly defined shape of the component for a given design solution
In this thesis the Topology Optimization technique for optimal engineering mi-crostructure design is...
This work deals with issues related to the optimization of structural designs. With the increasing d...
This work addresses the treatment of lower density regions of structures undergoing large deformatio...
Modern industry requires an increasing level of efficiency in a lightweight design. To achieve these...
During the last two decades, computational structural optimization methods have emerged, as computat...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
The topology optimization method solves the basic engineering problem of distributing a limited amou...
The ongoing demand for better performing designs, has resulted in an increase in the complexity of t...
Sizing and shape structural optimization problems are normally stated in terms of a minimum weight a...
We investigate a novel approach for structural shape optimization on the basis of complementary shap...
The technological competition has demanded an ever increasing technological development, and in e.g....
Topology Optimization is a defined as the method of determining optimal distribution of material for...
International audienceStructural topology optimization is addressed through Genetic Algorithms: A se...
Topological optimization (TO) tools are today widely employed in several engineering fields (e.g., c...
In many design applications, designers often have to find the best geometrical configurations so as ...
In this thesis the Topology Optimization technique for optimal engineering mi-crostructure design is...
This work deals with issues related to the optimization of structural designs. With the increasing d...
This work addresses the treatment of lower density regions of structures undergoing large deformatio...
Modern industry requires an increasing level of efficiency in a lightweight design. To achieve these...
During the last two decades, computational structural optimization methods have emerged, as computat...
Topology optimization is an optimization method to reduce material usage while also enhance the tens...
The topology optimization method solves the basic engineering problem of distributing a limited amou...
The ongoing demand for better performing designs, has resulted in an increase in the complexity of t...
Sizing and shape structural optimization problems are normally stated in terms of a minimum weight a...
We investigate a novel approach for structural shape optimization on the basis of complementary shap...
The technological competition has demanded an ever increasing technological development, and in e.g....
Topology Optimization is a defined as the method of determining optimal distribution of material for...
International audienceStructural topology optimization is addressed through Genetic Algorithms: A se...
Topological optimization (TO) tools are today widely employed in several engineering fields (e.g., c...
In many design applications, designers often have to find the best geometrical configurations so as ...
In this thesis the Topology Optimization technique for optimal engineering mi-crostructure design is...
This work deals with issues related to the optimization of structural designs. With the increasing d...
This work addresses the treatment of lower density regions of structures undergoing large deformatio...