Anisotropic materials play a critical role in today's manufacturing processes and other applications. Their unique ability to retain their shape under extreme thermal conditions has made these ...

The Boundary Element Method (BEM) is a powerful numerical technique used to solve complex engineering problems, particularly in the analysis of anisotropic materials and thermal stress.

McGill University researchers have expanded the capabilities of kirigami-inspired metamaterials to achieve anisotropic morphing, enabling stable transitions into various shapes. This could lead to ...

Recent research in this area has explored various aspects of nonlinear elasticity, anisotropic materials, and the complex interactions between different types of deformations. Recent studies have ...

The methodology developed in this study, combining simulations of atomic vibrations with elasticity models, can be directly applied to other anisotropic materials, offering a cost-effective ...