3D cellular characterization and finite element analysis of cork compressive behavior based on high-resolution X-ray microtomography

“…The analysis utilized the CRUSHABLE FOAM material model within the program, incorporating the hyperelasticity model and the Mullins effect to simulate material damage under high deformation. Subsequent finite element analysis of the high-velocity impact response of agglomerated cork using the same model demonstrated good agreement with experimental data 38,39 (Fig. 4a).…”

“…(c) Von mises stress results of the explicit finite element analyses based on the cubic region of interest (ROI) extracted from the sub-micron μCT scan, with compression in the non-radial (axial) and radial directions, indicating compressive strains of 0%, 8%, 33%, and 50%. Dashed circles indicate examples of cork cell wall bending, buckling, and folding during compression 39. Copyright 2023, Spring.…”

Transforming wastes into functional materials: natural cork-based physical structural components and polymers

“…The analysis utilized the CRUSHABLE FOAM material model within the program, incorporating the hyperelasticity model and the Mullins effect to simulate material damage under high deformation. Subsequent finite element analysis of the high-velocity impact response of agglomerated cork using the same model demonstrated good agreement with experimental data 38,39 (Fig. 4a).…”

“…(c) Von mises stress results of the explicit finite element analyses based on the cubic region of interest (ROI) extracted from the sub-micron μCT scan, with compression in the non-radial (axial) and radial directions, indicating compressive strains of 0%, 8%, 33%, and 50%. Dashed circles indicate examples of cork cell wall bending, buckling, and folding during compression 39. Copyright 2023, Spring.…”

Transforming wastes into functional materials: natural cork-based physical structural components and polymers

Bionics and Design: 3D Microstructural Characterization of Cork for the Development of Conceptual Products