Thermal error reduction is of major importance to the performance of any high-tech machine. Topology optimization can be a tool that is able to design geometries that reduce the thermal error, beyond human creativity. In this research, topology optimization is used to reduce the thermal error on a transient-thermal-mechanical problem. The thermal error of the specific problem was reduced by 30%. Multiphyiscal topology optimization, as applied to the problem, comes with many challenges, under which is the manufacturability of its final design. A new penalization method is proposed, that ensures that the final design contains no intermediate densities, which are common to multiphysical topology optimization, even with SIMP or RAMP penalizatio...
The technological competition has demanded an ever increasing technological development, and in e.g....
In the last few years, the rapid diffusion of components produced through additive manufacturing pro...
Topology optimization approaches are commonly used for design problems involving physical phenomena ...
Designing transient thermal mechanical systems is a challenging task. Material can have many differe...
Efficient electric machinery often needs to be accurately thermally conditioned. Heat sinks and heat...
Topology optimization is a valuable tool that can assist engineers in the design of many complex pro...
The final publication is available at Springer via http://dx.doi.org/10.1007/s00466-020-01850-0This ...
Topology optimization is increasingly used as a design tool in engineering. Within structural mechan...
Topology optimization is widely used within the academic environment. It is however not yet a standa...
The focus of this paper is on thermo-elastic topology optimization where the structure is subject to...
The availability of flexible production techniques challenges their full exploitation during thermo-...
General topology optimization optimizes material layout within a given design space based on structu...
One of the most applied optimization methods in mechanical engineering is topology optimization (TO)...
In this paper, an autonomous thermal management design process based on a topological optimisation a...
Topology optimization is a method for developing optimized geometric designs that maximize a quantit...
The technological competition has demanded an ever increasing technological development, and in e.g....
In the last few years, the rapid diffusion of components produced through additive manufacturing pro...
Topology optimization approaches are commonly used for design problems involving physical phenomena ...
Designing transient thermal mechanical systems is a challenging task. Material can have many differe...
Efficient electric machinery often needs to be accurately thermally conditioned. Heat sinks and heat...
Topology optimization is a valuable tool that can assist engineers in the design of many complex pro...
The final publication is available at Springer via http://dx.doi.org/10.1007/s00466-020-01850-0This ...
Topology optimization is increasingly used as a design tool in engineering. Within structural mechan...
Topology optimization is widely used within the academic environment. It is however not yet a standa...
The focus of this paper is on thermo-elastic topology optimization where the structure is subject to...
The availability of flexible production techniques challenges their full exploitation during thermo-...
General topology optimization optimizes material layout within a given design space based on structu...
One of the most applied optimization methods in mechanical engineering is topology optimization (TO)...
In this paper, an autonomous thermal management design process based on a topological optimisation a...
Topology optimization is a method for developing optimized geometric designs that maximize a quantit...
The technological competition has demanded an ever increasing technological development, and in e.g....
In the last few years, the rapid diffusion of components produced through additive manufacturing pro...
Topology optimization approaches are commonly used for design problems involving physical phenomena ...