Litcius/Paper detail

Overhang control based on front propagation in 3D topology optimization for additive manufacturing

Emiel van de Ven, R. Maas, Can Ayas, Matthijs Langelaar, Fred van Keulen

2020Computer Methods in Applied Mechanics and Engineering62 citationsDOIOpen Access PDF

Abstract

It is attractive to combine topology optimization (TO) with additive manufacturing (AM), due to the design freedom provided by AM, and the increased performance that can be achieved with TO. One important aspect is to include the design rules associated with the process restrictions of AM to prevent the requirement of relatively large support volumes during printing. This paper presents a TO filter that enforces a minimum overhang angle, resulting in an optimized topology that is printable without the need for support structures. The filter is based on front propagation, which, as it is described by a PDE, allows for a straightforward application on unstructured meshes, to enforce an arbitrary overhang angle. Efficient algorithms developed for front propagation are used in combination with adjoint sensitivities, in order to have a minor influence on the total computational cost. The focus of this work is on the implementation of the filter for high resolution 3D cases, which requires development of the front propagation for tetrahedral elements, and its parallelization.

Topics & Concepts

Topology optimizationTopology (electrical circuits)Focus (optics)Polygon meshFilter (signal processing)Computer scienceTetrahedron3D printingProcess (computing)Finite element methodMathematical optimizationMechanical engineeringMathematicsEngineeringGeometryStructural engineeringOpticsPhysicsComputer visionOperating systemCombinatoricsComputer graphics (images)Topology Optimization in EngineeringManufacturing Process and OptimizationAdvanced Multi-Objective Optimization Algorithms