A strategic challenge for technology is the development of advanced composite materials to meet growing functional demands. Traditional parametric-based composite material design methods are not general enough to accommodate novel materials with unusual properties. In this dissertation, a non-parametric design method is proposed to design materials with unique properties. This method, which is a combination of topology optimization and homogenization, is especially geared to design topologies of material microstructures. As is often the case in research, in the course of the work with microstructure topology optimizations, it became apparent that the mathematical features of homogenization responded to the unanswered problem of optimizin...
This paper attempts to present a new multi-criteria topological optimization methodology for the sys...
This paper studies the influence of heat conduction in both structural and material designs in two d...
To take advantage of multi-material additive manufacturing technology using mixtures of metal alloys...
A strategic challenge for technology is the development of advanced composite materials to meet grow...
The traditional structural topology optimization studies the optimal material layout and distributio...
The development of new techniques in micro-manufacturing in recent years has enabled the fabrication...
This paper aims at designing microstructures using stress-based topology optimization. Most of the d...
Engineers are often required to design mechanical structures to meet specific loading conditions. To...
Summarization: Designing micro-structures that lead to materials with negative Poisson’s ratio, the ...
In this thesis, the concept of optimal layout design of continuum structures using the homogenizatio...
In this paper, we will highlight the current research which employs the topology optimization to fin...
This paper aims at designing microstructures using stress-based topology optimization. Most of the d...
106 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.The overall objective is to c...
Microstructural design for multi-functional composites of solid, fluid and heat transfer properties ...
Significant performance improvements can be obtained if the topology of an elastic structure is allo...
This paper attempts to present a new multi-criteria topological optimization methodology for the sys...
This paper studies the influence of heat conduction in both structural and material designs in two d...
To take advantage of multi-material additive manufacturing technology using mixtures of metal alloys...
A strategic challenge for technology is the development of advanced composite materials to meet grow...
The traditional structural topology optimization studies the optimal material layout and distributio...
The development of new techniques in micro-manufacturing in recent years has enabled the fabrication...
This paper aims at designing microstructures using stress-based topology optimization. Most of the d...
Engineers are often required to design mechanical structures to meet specific loading conditions. To...
Summarization: Designing micro-structures that lead to materials with negative Poisson’s ratio, the ...
In this thesis, the concept of optimal layout design of continuum structures using the homogenizatio...
In this paper, we will highlight the current research which employs the topology optimization to fin...
This paper aims at designing microstructures using stress-based topology optimization. Most of the d...
106 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.The overall objective is to c...
Microstructural design for multi-functional composites of solid, fluid and heat transfer properties ...
Significant performance improvements can be obtained if the topology of an elastic structure is allo...
This paper attempts to present a new multi-criteria topological optimization methodology for the sys...
This paper studies the influence of heat conduction in both structural and material designs in two d...
To take advantage of multi-material additive manufacturing technology using mixtures of metal alloys...