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An efficient triangle mesh slicing algorithm for all topologies in additive manufacturing

Bethany King, Allan Rennie, Graham R. Bennett

2020The International Journal of Advanced Manufacturing Technology20 citationsDOIOpen Access PDF

Abstract

Abstract To date, slicing algorithms for additive manufacturing is the most effective for favourable triangular mesh topologies; worst-case models, where a large percentage of triangles intersect each slice plane, take significantly longer to slice than a like-for-like file. In larger files, this results in a significant slicing duration, when models are both worst cases and contain more than 100,000 triangles. The research presented here introduces a slicing algorithm which can slice worst-case large models effectively. A new algorithm is implemented utilising an efficient contour construction method, with further adaptations, which make the algorithm suitable for all model topologies. Edge matching, which is an advanced sorting method, decreases the number of sorts per edge from n total number of intersections to two, alongside additional micro-optimisations that deliver the enhanced efficient contour construction algorithm. The algorithm was able to slice a worst-case model of 2.5 million triangles in the 1025s . Maximum improvement was measured as 9400% over the standard efficient contour construction method. Improvements were also observed in all parts in excess of 1000 triangles. The slicing algorithm presented offers novel methods that address the failings of other algorithms described in literature to slice worst-case models effectively.

Topics & Concepts

SlicingAlgorithmNetwork topologySortingEnhanced Data Rates for GSM EvolutionComputer scienceMatching (statistics)Triangle meshMathematicsPolygon meshArtificial intelligenceComputer graphics (images)Operating systemStatisticsAdditive Manufacturing and 3D Printing Technologies3D Printing in Biomedical ResearchNanofabrication and Lithography Techniques
An efficient triangle mesh slicing algorithm for all topologies in additive manufacturing | Litcius