Investigation of the equivalent mechanical properties of the bone-inspired composite cellular structure: Analytical, numerical and experimental approaches

Ghorbani, Fatemeh; Gharehbaghi, Hussain; Farrokhabadi, Amin; Bolouri, Amir

doi:10.1016/j.compstruct.2023.116720

All Outputs (3)

Investigation of energy absorption performances of a 3D printed fiber-reinforced bio-inspired cellular structure under in-plane compression loading (2023)
Journal Article
Ghorbani, F., Gharehbaghi, H., Farrokhabadi, A., Bolouri, A., Behravesh, A. H., & Hedayati, S. K. (in press). Investigation of energy absorption performances of a 3D printed fiber-reinforced bio-inspired cellular structure under in-plane compression loading. Mechanics of Advanced Materials and Structures, https://doi.org/10.1080/15376494.2023.2214552

This article proposes glass-fiber-reinforced bone-inspired cellular structures to enhance energy absorption capability. The elastic modulus of the bone-inspired unit cell is obtained analytically based on the energy method and then employed in Partic... Read More about Investigation of energy absorption performances of a 3D printed fiber-reinforced bio-inspired cellular structure under in-plane compression loading.

Mechanical characterization of high volume fraction Al7075-Al2O3 composite fabricated by semisolid powder processing (2023)
Journal Article
Aghajani, S., Pouyafar, V., Meshkabadi, R., Volinsky, A. A., & Bolouri, A. (2023). Mechanical characterization of high volume fraction Al7075-Al2O3 composite fabricated by semisolid powder processing. International Journal of Advanced Manufacturing Technology, 125, 2569–2580. https://doi.org/10.1007/s00170-023-10881-9

The mechanical properties and physical characteristics of aluminum alloy composites can be significantly improved by adding reinforcing phases. However, the high loading of the reinforcement phase in Al7075-Al2O3 composites has not been thoroughly st... Read More about Mechanical characterization of high volume fraction Al7075-Al2O3 composite fabricated by semisolid powder processing.

Investigation of the equivalent mechanical properties of the bone-inspired composite cellular structure: Analytical, numerical and experimental approaches (2023)
Journal Article
Ghorbani, F., Gharehbaghi, H., Farrokhabadi, A., & Bolouri, A. (2023). Investigation of the equivalent mechanical properties of the bone-inspired composite cellular structure: Analytical, numerical and experimental approaches. Composite Structures, 309, 116720. https://doi.org/10.1016/j.compstruct.2023.116720

This study investigated the development of an analytical model using the energy method and Castigliano's second theory to evaluate the equivalent mechanical properties for a bone-inspired cellular structure of a glass fiber-reinforced Polylactic Acid... Read More about Investigation of the equivalent mechanical properties of the bone-inspired composite cellular structure: Analytical, numerical and experimental approaches.