Litcius/Paper detail

Impact Strength for 3D-Printed PA6 Polymer Composites under Temperature Changes

Jorge Guillermo Díaz-Rodríguez, A Pertuz, O Bohórquez

2023Journal of Manufacturing and Materials Processing18 citationsDOIOpen Access PDF

Abstract

This paper shows how temperature influences impact energy for continuous fiber additively manufactured (AM) polymer matrix composites. AM composites were fabricated with a nylon-based matrix and four continuous reinforcements: fiberglass, high-temperature fiberglass (HSHT), Kevlar, and carbon. The tested temperatures ranged from −40 to 90 °C. The chosen printed configuration for the lattice structure and fiber volume was the configuration that was found to perform the best in the literature, with a volumetric fiber content of 24.2%. Impact tests showed that the best response was fiberglass, HSHT, Kevlar, and carbon, in that order. The impact resistance was lowered at temperatures below ambient temperatures and above 50 °C. Additionally, each material’s impact energy was adjusted to third-degree polynomials to model results, with correlation factors above 92%. Finally, the failure analysis showed the damage mechanisms of matrix cracking, delamination in the printing direction, fiber tearing, and fiber pulling as failure mechanisms.

Topics & Concepts

Composite materialMaterials scienceTearingKevlarIzod impact strength testPolymerDelamination (geology)FiberDamage toleranceCrackingImpact energyEpoxyUltimate tensile strengthComposite numberSubductionTectonicsBiologyPaleontologyAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsCellular and Composite Structures