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| Mechanism | Description | Representative Studies | |-----------|-------------|--------------------------| | | Elastic constants vary with direction; fracture preferentially follows the weakest crystal planes ([111] or [100]). | Kumar & Buehler, “Fracture in Cubic Lattices”, Acta Materialia, 2021 | | Cell‑Wall Debonding | Weak interfacial bonding between struts leads to micro‑crack nucleation at nodes. | Li et al., “Interfacial Toughening of 3D‑Printed Lattices”, Materials & Design, 2020 | | Strain‑Gradient Plasticity | High strain gradients at strut junctions elevate local yield stresses, delaying crack onset but producing a more jagged crack front once it initiates. | Gao & Needleman, “Size Effects in Microlattice Fracture”, J. Mech. Phys. Solids, 2019 | | Thermal Mismatch | Rapid heating/cooling creates residual stresses that act as crack‑driving forces. | Wang et al., “Thermal Shock in Silicon Cubic Lattices”, J. Mater. Sci., 2022 | | Rate‑Dependent Brittle‑Ductile Transition | Under high strain‑rates, lattice walls may transition from brittle to ductile response, altering crack morphology. | Zhang et al., “Dynamic Fracture of Metallic Microlattices”, Int. J. Impact Eng., 2023 | If you have already installed a Cubicost crack

: Glodon often provides trial versions for users to test the software's capabilities before committing. | Kumar & Buehler, “Fracture in Cubic Lattices”,