Self-supporting rhombic infill structures for additive manufacturing

• Published in: Computer aided design Vol. 80; pp. 32 - 42
• Main Authors: Wu, Jun, Wang, Charlie C.L., Zhang, Xiaoting, Westermann, Rüdiger
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.11.2016
• Subjects: Additive manufacturing; Geometric algorithm; Infill; Optimization; Self-supporting; Geometric algorithm; Self-supporting; Additive manufacturing; Optimization; Infill
• ISSN: 0010-4485; 1879-2685
• DOI: 10.1016/j.cad.2016.07.006

Recent work has demonstrated that the interior material layout of a 3D model can be designed to make a fabricated replica satisfy application-specific demands on its physical properties, such as resistance to external loads. A widely used practice to fabricate such models is by layer-based additive manufacturing (AM), which however suffers from the problem of adding and removing interior supporting structures. In this paper, we present a novel method for generating application-specific infill structures on rhombic cells so that the resultant structures can automatically satisfy manufacturing requirements on overhang-angle and wall-thickness. Additional supporting structures can be avoided entirely in our framework. To achieve this, we introduce the usage of an adaptive rhombic grid, which is built from an input surface model. Starting from the initial sparse set of rhombic cells, via numerical optimization techniques an objective function can be improved by adaptively subdividing the rhombic grid and thus adding more walls in cells. We demonstrate the effectiveness of our method for generating interior designs in the applications of improving mechanical stiffness and static stability. •Rhombic infill structures ensure the manufacturability of the shape interior.•Adaptively subdividing the rhombic grid can improve the objective function.•The method is exemplified by improving mechanical stiffness and static stability.