[[abstract]]This paper presents an integrated process of structural topology optimization in minimizing both compliance and structural weight. The material volume fraction acts an additional design variable subjected to the empirical approximate stress constraint in terms of material volume fraction. This explicitly approximate function can provide a convenient way to calculate its gradient information for numerical optimization. An engineer does not require advanced topology optimization and superior finite element technique in applying proposed method.[[journaltype]]國外[[incitationindex]]EI[[booktype]]紙本[[countrycodes]]CH
© 2017, Springer-Verlag GmbH Germany. This paper focuses on the stress-constrained topology optimiza...
The objective of this paper is to demonstrate a topology optimization method subject to displacement...
The paper deals with the imposition of local stress constraints in topology optimization. The aim of...
[[abstract]]This paper presents an integrated design process of structural topology optimization in ...
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...
Topology optimization is commonly used to distribute a given amount of material to obtain the stiffe...
Abstract The purpose of this paper is to apply stress constraints to structural topology optimizatio...
A formulation for the topology optimization of elastic structures that aims at minimizing the struc...
Since the fundamental work by Bendsøe and Kikuchi (1988), topology optimization has been based on co...
Since Bendse and Kikuchi proposed the basic concepts in 1988, most of topology structural optimizati...
Stability is a critical factor in structural design. Although buckling-constrained topology optimiza...
This work was partially supported by Fundacao para a Ciencia e a Tecnologia (Portugal) through the p...
Topology optimization of continuum structures is a relatively new branch of the structural opti-miza...
This thesis contains contributions to the development of topology optimization techniques capable of...
© 2017, Springer-Verlag GmbH Germany. This paper focuses on the stress-constrained topology optimiza...
The objective of this paper is to demonstrate a topology optimization method subject to displacement...
The paper deals with the imposition of local stress constraints in topology optimization. The aim of...
[[abstract]]This paper presents an integrated design process of structural topology optimization in ...
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...
Topology optimization is commonly used to distribute a given amount of material to obtain the stiffe...
Abstract The purpose of this paper is to apply stress constraints to structural topology optimizatio...
A formulation for the topology optimization of elastic structures that aims at minimizing the struc...
Since the fundamental work by Bendsøe and Kikuchi (1988), topology optimization has been based on co...
Since Bendse and Kikuchi proposed the basic concepts in 1988, most of topology structural optimizati...
Stability is a critical factor in structural design. Although buckling-constrained topology optimiza...
This work was partially supported by Fundacao para a Ciencia e a Tecnologia (Portugal) through the p...
Topology optimization of continuum structures is a relatively new branch of the structural opti-miza...
This thesis contains contributions to the development of topology optimization techniques capable of...
© 2017, Springer-Verlag GmbH Germany. This paper focuses on the stress-constrained topology optimiza...
The objective of this paper is to demonstrate a topology optimization method subject to displacement...
The paper deals with the imposition of local stress constraints in topology optimization. The aim of...