The design of a microvascular flow network embedded in an actively-cooled polymeric material is presented. A multi-objective Genetic Algorithm (GA) combined with the finite element method is first used to determine the quasi-optimized network configurations and provide insight into the behavior of the actively-cooled material. The objective functions and constraints involve improving the flow efficiency and minimizing the void volume fraction of the material, while maintaining an allowable temperature in the system. A periodic configuration is adopted for the embedded network based on the results of this study. We then solve an optimization problem at a considerably lower computational cost to improve the optimized network configuration. To...
A biomimetic analysis is presented in which an expression for the optimum vessel diameter for the de...
This paper introduces a numerical methodology for the design of ran- dom micro-heterogeneous materia...
A novel Computational Fluid Dynamics-enabled multi-objective optimisation methodology for Polymerase...
Biomimetic microvascular materials are increasingly considered for a variety of autonomic healing, c...
This work discusses the computational design of microvascular polymeric materials, which aim at mimi...
185 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2010.In this work, we propose to d...
Inspired by microchannels networks in biological systems, microvascular composites are being used fo...
The computational design of embedded microchannels in actively-cooled 3D woven microvascular composi...
Microvascular composites constitute a novel class of biomemetic materials with the ability to perfor...
The cooling process in polymer injection molding is of great importance as it has a direct impact on...
The paper deals with the optimization of runner system in injection molding design. The design objec...
Advances in miniaturization have led to the use of microchannels as heat sinks in industry. Studies ...
In this study, a hybridized neuro-genetic optimization methodology realized by embedding finite elem...
Artificial vascular vessels, including arteries, veins and capillaries, are being printed using addi...
Microvascular networks show promise for applications such as self-healing, self-cooling, and structu...
A biomimetic analysis is presented in which an expression for the optimum vessel diameter for the de...
This paper introduces a numerical methodology for the design of ran- dom micro-heterogeneous materia...
A novel Computational Fluid Dynamics-enabled multi-objective optimisation methodology for Polymerase...
Biomimetic microvascular materials are increasingly considered for a variety of autonomic healing, c...
This work discusses the computational design of microvascular polymeric materials, which aim at mimi...
185 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2010.In this work, we propose to d...
Inspired by microchannels networks in biological systems, microvascular composites are being used fo...
The computational design of embedded microchannels in actively-cooled 3D woven microvascular composi...
Microvascular composites constitute a novel class of biomemetic materials with the ability to perfor...
The cooling process in polymer injection molding is of great importance as it has a direct impact on...
The paper deals with the optimization of runner system in injection molding design. The design objec...
Advances in miniaturization have led to the use of microchannels as heat sinks in industry. Studies ...
In this study, a hybridized neuro-genetic optimization methodology realized by embedding finite elem...
Artificial vascular vessels, including arteries, veins and capillaries, are being printed using addi...
Microvascular networks show promise for applications such as self-healing, self-cooling, and structu...
A biomimetic analysis is presented in which an expression for the optimum vessel diameter for the de...
This paper introduces a numerical methodology for the design of ran- dom micro-heterogeneous materia...
A novel Computational Fluid Dynamics-enabled multi-objective optimisation methodology for Polymerase...