Abstract: In the last few years, Fused Filament Fabrication is growing in the industrial field for the manufacture of final products by using new materials with high mechanical performances. Among those, one of the strongest is Carbon-PA. This is a composite material made by Nylon thermoplastic matrix filled with short carbon fibers reinforces. The aim of this work is to investigate its mechanical properties in static and dynamic conditions. Cylindrical specimens were produced by extruding the material in the three main printing directions. Then, uniaxial quasi-static and dynamic compression tests have been performed to evaluate its strain rate sensitivity. Dynamic tests have been carried out through a direct Split Hopkinson Bar setup with a pulse-shaping technique. The results show a compression behaviour dependent on the printing direction and strain rate. The behaviour of Carbon-PA was different between static and dynamic condition, passing from ductile to brittle. Moreover, a tomography analysis was carried out on the samples to evaluate the voids distribution. Graphic abstract: [Figure not available: see fulltext.]

High strain rate compression behaviour of 3D printed Carbon-PA / Utzeri, M.; Farotti, E.; Coccia, M.; Mancini, E.; Sasso, M.. - In: JOURNAL OF MATERIALS RESEARCH. - ISSN 0884-2914. - ELETTRONICO. - 36:10(2021), pp. 2083-2093. [10.1557/s43578-021-00248-9]

High strain rate compression behaviour of 3D printed Carbon-PA

Utzeri M.;Farotti E.;Coccia M.;Sasso M.
2021-01-01

Abstract

Abstract: In the last few years, Fused Filament Fabrication is growing in the industrial field for the manufacture of final products by using new materials with high mechanical performances. Among those, one of the strongest is Carbon-PA. This is a composite material made by Nylon thermoplastic matrix filled with short carbon fibers reinforces. The aim of this work is to investigate its mechanical properties in static and dynamic conditions. Cylindrical specimens were produced by extruding the material in the three main printing directions. Then, uniaxial quasi-static and dynamic compression tests have been performed to evaluate its strain rate sensitivity. Dynamic tests have been carried out through a direct Split Hopkinson Bar setup with a pulse-shaping technique. The results show a compression behaviour dependent on the printing direction and strain rate. The behaviour of Carbon-PA was different between static and dynamic condition, passing from ductile to brittle. Moreover, a tomography analysis was carried out on the samples to evaluate the voids distribution. Graphic abstract: [Figure not available: see fulltext.]
2021
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/297739
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