Add to ORKGIn this paper, an autonomous thermal management design process based on a topological optimisation algorithm is presented. The numerical framework uses a finite element multiphysics solver to assess fluid flow and heat transfer, coupled with the Method of Moving Asymptotes approach for topology optimisation. The design framework is utilised to develop a copper heatsink for a simplified electronics package at two differing Reynolds numbers. In both cases, the final shape resembles a tree like structure rather than a more conventional fin structure
Topology optimization is a method for developing optimized geometric designs that maximize a quantit...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...
This paper investigates the potential of using the Adjoint Level-set topological optimization approa...
Topology optimization is widely used within the academic environment. It is however not yet a standa...
In this article we apply a Level-set topological optimization algorithm to the design of multi-mater...
Small scale fluid flow systems have been studied for various applications, such as chemical reagent ...
Small scale fluid flow systems have been studied for various applications, such as chemical reagent ...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
In this study, we apply the two most prevalent topological optimisation algorithms to the design of ...
An active fluid heat exchanger can be controlled effectively using Peltier elements to condition the...
The aim of this thesis is to explore the use of topology optimization in designing materials for hea...
Topology optimization is a method for developing optimized geometric designs that maximize a quantit...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...
This paper investigates the potential of using the Adjoint Level-set topological optimization approa...
Topology optimization is widely used within the academic environment. It is however not yet a standa...
In this article we apply a Level-set topological optimization algorithm to the design of multi-mater...
Small scale fluid flow systems have been studied for various applications, such as chemical reagent ...
Small scale fluid flow systems have been studied for various applications, such as chemical reagent ...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
This work presents an exploration of fluid region optimization within coupled fluid–thermal problems...
In this study, we apply the two most prevalent topological optimisation algorithms to the design of ...
An active fluid heat exchanger can be controlled effectively using Peltier elements to condition the...
The aim of this thesis is to explore the use of topology optimization in designing materials for hea...
Topology optimization is a method for developing optimized geometric designs that maximize a quantit...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...
With the inherent usage of the computer when dealing with additive manufacturing, it only makes sens...