Litcius/Paper detail

Toughening mechanisms and damage propagation in Architected-Interfaces

Michelle Hedvard, Marcelo A. Dias, Michal K. Budzik

2023International Journal of Solids and Structures17 citationsDOIOpen Access PDF

Abstract

We investigate fracture toughness of architected interfaces and their ability to maintain structural integrity and provide stable damage propagation conditions beyond the failure load. We propose theoretical and numerical frameworks to evaluate the fracture properties of architected interfaces sandwiched between two (face) materials. The microscopic geometries of these interfaces are chosen as 2D cells—pillar, tetrahedron, and hexagon—as well as their 3D counterparts—namely, pillar array, octet truss, and Kelvin cell. Our model, both numerical and analytical, exhibits a high level of accuracy in predicting the compliance before failure and failure loads. Novel results are obtained during the damage propagation regime, indicating fulfilment of the so-called fail-safe design. Some of the cell geometries unfold during fracture, thus increasing the failure load and ensuring stable and controlled damage propagation conditions.

Topics & Concepts

TougheningMaterials scienceComposite materialStructural engineeringComputer scienceToughnessEngineeringCellular and Composite StructuresMechanical Behavior of CompositesAdvanced Materials and Mechanics