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Impact resistance and failure mechanism of 3D printed continuous fiber-reinforced cellular composites

S M Fijul Kabir, Kavita Mathur, Abdel‐Fattah M. Seyam

2020Journal of the Textile Institute67 citationsDOI

Abstract

The present research investigated previously unexplored attributes of 3D printed continuous fiberglass reinforced Nylon composites, Drop-weight and pendulum (Charpy and Izod) impact resistance including their failure mechanisms with a view to assessing their suitability for prospective high-performance applications such as aerospace, automobile and building industries. The composites were printed with different cellular structures (triangular, hexagonal, rectangular and solid) and three distinct fiber orientations (0/0/0/0, 0/90/0/90 and 0/45/90/-45). Results of the impact assessment of the developed composites exhibited substantial performance when compared to traditional 3D orthogonal plain-woven composites indicating 3D printing process as a promising composite fabrication technology. The effect of fiber orientation was very dominant towards dictating mechanical properties; cross-lay samples (0/90/0/90) absorbed the highest Drop-weigh impact energy followed by quasi-isotropic (0/45/90/-45) and unidirectional (0/0/0/0) composites, while the highest pendulum impact energy was showed by unidirectional composites, followed by cross-lay and quasi-isotropic samples. Incorporation of cellular structure had some effect on the properties measured and composite weight reduction; however, relative contribution of different structures was confounding associating a lot of factors that warn further research.

Topics & Concepts

Composite materialMaterials scienceImpact resistanceCharpy impact testComposite numberIzod impact strength testImpact energyFiberDrop (telecommunication)IsotropyFabrication3d printedUltimate tensile strengthMechanical engineeringAlternative medicineBiomedical engineeringPathologyMedicineEngineeringQuantum mechanicsPhysicsAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsCellular and Composite Structures
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