Investigating the Flexural Properties of 3D-Printed Nylon CF12 with Respect to the Correlation Between Loading and Layering Directions DOI Open Access
Katarína Monková, Peter Monka, Jana Bürgerová

и другие.

Polymers, Год журнала: 2025, Номер 17(6), С. 788 - 788

Опубликована: Март 16, 2025

The article deals with the investigation of flexural properties 3D-printed Nylon CF12 regard to correlation between loading and layering directions. It also discusses prospective consideration a suitable combination lightweight material, 3D-printing, cellular structures for application in sports, such as production poles pole vaulting. Full-volume samples (with without orbital shell) porous (Diamond, Primitive, Gyroid) sizes 20 × 250 mm were fabricated subjected experimental three-point bending tests. force–displacement dependencies plotted, data further evaluated. results showed that full-volume beams are significantly influenced by direction relative layering, while structures, differences very small. Also, mismatches material listed datasheets achieved within research identified indicate necessity verify mechanical newly developed products experimentally.

Язык: Английский

Investigating the Flexural Properties of 3D-Printed Nylon CF12 with Respect to the Correlation Between Loading and Layering Directions DOI Open Access
Katarína Monková, Peter Monka, Jana Bürgerová

и другие.

Polymers, Год журнала: 2025, Номер 17(6), С. 788 - 788

Опубликована: Март 16, 2025

The article deals with the investigation of flexural properties 3D-printed Nylon CF12 regard to correlation between loading and layering directions. It also discusses prospective consideration a suitable combination lightweight material, 3D-printing, cellular structures for application in sports, such as production poles pole vaulting. Full-volume samples (with without orbital shell) porous (Diamond, Primitive, Gyroid) sizes 20 × 250 mm were fabricated subjected experimental three-point bending tests. force–displacement dependencies plotted, data further evaluated. results showed that full-volume beams are significantly influenced by direction relative layering, while structures, differences very small. Also, mismatches material listed datasheets achieved within research identified indicate necessity verify mechanical newly developed products experimentally.

Язык: Английский

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