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Bead geometry–induced stress concentration factors in material extrusion polymer additive manufacturing

Saratchandra Kundurthi, Felix Tran, Si Chen, Javed Mapkar, Mahmoodul Haq

2023Rapid Prototyping Journal11 citationsDOI

Abstract

Purpose Material extrusion additive manufacturing processes inevitably produce bead-shaped surface patterns on the walls of parts, which create stress concentrations under load. This study aims to investigate the influence of such stress concentrations on the strength along the build direction (“Z-strength”). Design/methodology/approach This work consists of two main parts – an experimental demonstration to show the significance of stress concentrations on the Z-strength, followed by numerical modeling to evaluate the theoretical stress concentration factors (k t ) for such shapes. Meso-scale finite element analysis (FEA) was performed to evaluate k t at the roots of the intersecting bead shapes. The critical bead shape parameters influencing k t were identified, and parametric FEA studies were performed on different bead shapes by varying the normalized parameters. Findings The experimental results showed that up to a 40% reduction in the effective Z-strength could be attributed only to the presence of surface bead shapes. Bead overhang and root radius were identified as critical shape parameters influencing k t . The results of the parametric FEA studies were used to generate a single empirical equation to determine k t for any bead shape. Originality/value Predictive models for Z-strength often focus on crystallization kinetics and polymer chain interdiffusion to predict interlayer adhesion strength. The authors propose that the results of such studies must be combined with surface bead-shape induced stress concentration factors to obtain the combined, “effective” Z-strength.

Topics & Concepts

Materials scienceExtrusionFinite element methodParametric statisticsStress (linguistics)BeadStress concentrationComposite materialResponse surface methodologyStructural engineeringMathematicsEngineeringLinguisticsStatisticsPhilosophyFracture mechanicsAdditive Manufacturing and 3D Printing TechnologiesAdditive Manufacturing Materials and ProcessesInnovations in Concrete and Construction Materials
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