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An additive manufacturing toolpath algorithm provides a novel, non-planar printing technique that improves the mechanical properties of printed parts by providing an interweave between different layers.
The University of Alberta inventors have developed an additive manufacturing toolpath algorithm that provides an original way of stitching the printed material across different layers, significantly improving the part's mechanical properties. Not only but also provide the ability to manipulate the final mechanical properties by tuning the stitch parameters.
Current development status
Laboratory prototypes
Desired business relationship
Patent licensing
Joint ventures
Technology development
Transforming discoveries and innovations into reality is a complex and lengthy process. UAlberta’s Technology Transfer Services (TTS) team helps facilitate this journey. Part of the Vice-President (Research and Innovation) portfolio, TTS helps researchers, postdoctoral fellows, staff and students transform innovations and discoveries into reality—moving them out of the university to benefit society, the economy, the world.
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