Additive manufactured gyroid-based cell structures under compression: design, testing and simulation for biomedical applications

Juan Carlos Castro-Sandoval; Alfredo Chavez; Jorge Corona-Castuera; John Henao; Marco Antonio Rivera-Gil; Carlos A Poblano-Salas

doi:10.1080/10255842.2023.2179366

Additive manufactured gyroid-based cell structures under compression: design, testing and simulation for biomedical applications

Comput Methods Biomech Biomed Engin. 2024 Jan-Mar;27(2):211-221. doi: 10.1080/10255842.2023.2179366. Epub 2023 Feb 15.

Authors

Juan Carlos Castro-Sandoval¹, Alfredo Chavez¹, Jorge Corona-Castuera¹, John Henao, Marco Antonio Rivera-Gil¹, Carlos A Poblano-Salas¹

Affiliation

¹ Advanced Materials, CIATEQ, A.C., Querétaro, México.

PMID: 36790389
DOI: 10.1080/10255842.2023.2179366

Abstract

The mechanical behaviour of a DMLS Ti-6Al-4V gyroid-based cellular structure (CS), with potential application in the fabrication of implants, was studied under compressive conditions. The influence of the CS volumetric fraction on the elastic modulus was experimentally evaluated in cubic and cylindrical samples. The experimental results showed that the selected parameters allowed approximating the mechanical behaviour of the CS to that of trabecular bone. Finite element analysis was employed to study the mechanical behaviour of the CS. The model presented a good approximation of the experimental results, being useful to predict the mechanical behaviour of the CS.

Keywords: Additive manufacturing; compression testing; finite element method; gyroid-based cell structures.

MeSH terms

Alloys*
Cancellous Bone
Cellular Structures
Porosity
Titanium* / chemistry

Substances

Alloys
Titanium