An optimality criterion is established for combined strength and stiffness requirements per unit weight of structures utilizing materials which may have different strength, stiffness or density for the tension and compression members. In the extreme case this covers the use of different materials for tension and compression members; referred to here as dual-material structures. It is shown that additional considerations are required for statically determinate structures and proof of optimality is given for statically indeterminate and statically determinate cases. In all cases, the optimal structures are based on Michell structural layouts, in which the cross-sectional areas of the structural members are determined to give constant strain e...
We extend the problem of finding an optimal structure with maximum load-bearing capacity to the case...
Abst rac t A new formulation is presented for mathematical modelling to predict he distribution of m...
We study optimal layout of piece-wise periodic structures of linearly elastic materials. The effecti...
A criterion established by Prager for minimum-weight design of structures, using different materials...
An extension of recent work1 on the simultaneous optimization of material and structure to address t...
This paper describes some recent developments that treats the simultaneous optimization of material ...
A method is presented for the prediction of optimal configurations for two-material composite contin...
This paper describes some recent developments that treats the simultaneous optimization of material ...
The design of the best structure for a given purpose depends upon the criterion used for optimisati...
A formulation is presented for optimal design in the setting of linear elastostatics for continuum s...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76247/1/AIAA-1994-4367-370.pd
A new formulation is presented for mathematical modelling to predict material properties for the opt...
An iterative finite element based topology optimization method based on prescribed material redistri...
The authors wish also to thank Professor Krister Svanberg (Royal Institute of Technology, Stockholm,...
In this work, we explore simultaneous design and material selection by posing it as an optimization ...
We extend the problem of finding an optimal structure with maximum load-bearing capacity to the case...
Abst rac t A new formulation is presented for mathematical modelling to predict he distribution of m...
We study optimal layout of piece-wise periodic structures of linearly elastic materials. The effecti...
A criterion established by Prager for minimum-weight design of structures, using different materials...
An extension of recent work1 on the simultaneous optimization of material and structure to address t...
This paper describes some recent developments that treats the simultaneous optimization of material ...
A method is presented for the prediction of optimal configurations for two-material composite contin...
This paper describes some recent developments that treats the simultaneous optimization of material ...
The design of the best structure for a given purpose depends upon the criterion used for optimisati...
A formulation is presented for optimal design in the setting of linear elastostatics for continuum s...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76247/1/AIAA-1994-4367-370.pd
A new formulation is presented for mathematical modelling to predict material properties for the opt...
An iterative finite element based topology optimization method based on prescribed material redistri...
The authors wish also to thank Professor Krister Svanberg (Royal Institute of Technology, Stockholm,...
In this work, we explore simultaneous design and material selection by posing it as an optimization ...
We extend the problem of finding an optimal structure with maximum load-bearing capacity to the case...
Abst rac t A new formulation is presented for mathematical modelling to predict he distribution of m...
We study optimal layout of piece-wise periodic structures of linearly elastic materials. The effecti...