The Designs and Testing of Biodegradable Energy-Absorbing Inserts for Enhanced Crashworthiness in Sports Helmets
Paweł Kaczyński, Mateusz Skwarski, Anna Dmitruk, Piotr Makuła, Joanna Ludwiczak

TL;DR
This paper explores biodegradable materials for sports helmet liners, showing they can effectively absorb energy during impacts.
Contribution
The study introduces new biodegradable composites with improved crashworthiness for sports helmets.
Findings
PLA/PBAT and PLA/TPS blends show positive strain rate sensitivity and improved injection molding capabilities.
The PLA15PBAT85 blend was found most effective for energy absorption in sports helmets.
Dynamic FE simulations using material models matched experimental results well.
Abstract
This article addresses manufacturing structures made via injection molding from biodegradable materials. The mentioned structures can be successfully used as energy-absorbing liners of all kinds of sports helmets, replacing the previously used expanded polystyrene. This paper is focused on injection technological tests and tensile tests (in quasi-static and dynamic conditions) of several composites based on a PLA matrix with the addition of other biodegradable softening agents, such as PBAT and TPS (the blends were prepared via melt blending using a screw extruder with mass compositions of 50:50, 30:70, and 15:85). Tensile tests showed a positive strain rate sensitivity of the mixtures and a dependence of the increase in the ratio of the dynamic to static yield stress on the increase in the share of the plastic component in the mixture. Technological tests showed that increasing the…
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Taxonomy
TopicsNatural Fiber Reinforced Composites · Additive Manufacturing and 3D Printing Technologies · Cellular and Composite Structures
