In this work, we explore simultaneous designs of materials selection and structural optimization. As the material selection turns out to be a discrete process that finds the optimal distribution of materials over the design domain, it cannot be performed with common gradient-based optimization methods. In this paper, material selection is considered together with the shape and sizing optimization in a framework of multiobjective optimization of tracking the Pareto curve. The idea of mixed variables is often introduced in the case of mono-objective optimization. However, in the case of multi-objective optimization, we still face some hard key points related to the convexity and the continuity of the Pareto domain, which underline the origina...
AbstractÐThe development or selection of a material to meet given design requirements generally requ...
A generalized shape and layout optimization technique based on the homogenization method is describe...
International audienceReal world engineering optimization problems often involve discrete variables ...
In this work, we explore simultaneous designs of materials selection and structural optimization. As...
This paper is devoted to optimal sizing as well as to shape optimization. As a model example we cons...
A component may be made of different materials in its different regions to satisfy different require...
Today's state of the art within industrial applications requires the usage of efficient and high-per...
Recent developments in the Rapid Prototyping technology establish it as a new manufacturing techniq...
Materials selection is a matter of great importance to engineering design and software tools are val...
In recent years, structural optimization has changed the way we think of product development. Optimi...
An extension of recent work1 on the simultaneous optimization of material and structure to address t...
This paper presents a model for material selection for engineering design. Materials play an importa...
In present paper an improved multi-objective evolutionary algorithm is used for Pareto optimization ...
The design process involving both the architecture and the materials represents an hard task mainly ...
International audienceThe problem of finding the optimal shape of a continuous structure is addresse...
AbstractÐThe development or selection of a material to meet given design requirements generally requ...
A generalized shape and layout optimization technique based on the homogenization method is describe...
International audienceReal world engineering optimization problems often involve discrete variables ...
In this work, we explore simultaneous designs of materials selection and structural optimization. As...
This paper is devoted to optimal sizing as well as to shape optimization. As a model example we cons...
A component may be made of different materials in its different regions to satisfy different require...
Today's state of the art within industrial applications requires the usage of efficient and high-per...
Recent developments in the Rapid Prototyping technology establish it as a new manufacturing techniq...
Materials selection is a matter of great importance to engineering design and software tools are val...
In recent years, structural optimization has changed the way we think of product development. Optimi...
An extension of recent work1 on the simultaneous optimization of material and structure to address t...
This paper presents a model for material selection for engineering design. Materials play an importa...
In present paper an improved multi-objective evolutionary algorithm is used for Pareto optimization ...
The design process involving both the architecture and the materials represents an hard task mainly ...
International audienceThe problem of finding the optimal shape of a continuous structure is addresse...
AbstractÐThe development or selection of a material to meet given design requirements generally requ...
A generalized shape and layout optimization technique based on the homogenization method is describe...
International audienceReal world engineering optimization problems often involve discrete variables ...