Investigation of Auxetic Structural Deformation Behavior of PBAT Polymers Using Process and Finite Element Simulation

Schneider, Yanling; Guski, Vinzenz; Şahin, Arif; Schmauder, Siegfried; Kadkhodapour, Javad; Hufert, Jonas; Grebhardt, Axel; Bonten, Christian

doi:10.3390/polym15143142

Polymers

2023

DOI: 10.3390/polym15143142

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Investigation of Auxetic Structural Deformation Behavior of PBAT Polymers Using Process and Finite Element Simulation

Yanling Schneider

Vinzenz Guski

Arif Şahin

et al.

Abstract: The current work investigates the auxetic tensile deformation behavior of the inversehoneycomb structure with 5 × 5 cells made of biodegradable poly(butylene adipate-coterephthalate) (PBAT). Fused deposition modeling, an additive manufacturing method, was used to produce such specimens. Residual stress (RS) and warpage, more or less, always exist in such specimens due to their layer-by-layer fabrication, i.e., repeated heating and cooling. The RS influences the auxetic deformation behavior, but its measurement… Show more

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Modelling and bending analysis of a 3D-printed sandwich structure with an auxetic star-4 core

Hartl,

Katrakova-Krüger,

2024

MATEC Web Conf.

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Quasi-static 3-point bending of additive manufactured sandwich components with auxetic star-4 cores was investigated to obtain information on the influence of geometry parameters of the auxetic structure on the stress distribution of the face sheets. Experiments were carried out on specimens manufactured by fused deposition modelling from a PLA polymer to verify a simulation model for analyses. A hyperelastic material model was used in the finite element models to describe the elastic material behaviour and a hardening model to consider plasticity. Nanoindentation tests on the printed structures were conducted to identify the material parameters with modelling the nanoindentation procedure using the finite element method and applying automated optimisation techniques. This approach enabled an accurate reproduction of the nanoindentation tests in the simulations. The derived models for analysing the auxetic geometry have shown that the stress distribution in the face sheets of the sandwich components can be noticeably influenced with targeted changing the wall thicknesses of the auxetic star-4 structure. The simulations have also made it apparent that more effort is required to take into account the influences of the printing process on the deformation behaviour of the sandwich structure in the simulation model.

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Modelling and bending analysis of a 3D-printed sandwich structure with an auxetic star-4 core

Hartl,

Katrakova-Krüger,

2024

MATEC Web Conf.

View full text Add to dashboard Cite

show abstract

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Investigation of Auxetic Structural Deformation Behavior of PBAT Polymers Using Process and Finite Element Simulation

Cited by 1 publication

References 41 publications

Modelling and bending analysis of a 3D-printed sandwich structure with an auxetic star-4 core

Modelling and bending analysis of a 3D-printed sandwich structure with an auxetic star-4 core

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