The rapid progress of advanced manufacturing, multidisciplinary integration and artificial
intelligence has ushered in a new era of technological development in the design of …

Vibration and sound control is critical to many practical engineering systems in order to
minimise the detrimental effects caused by unavoidable vibrations and noises …

The rise of machine learning has fueled the discovery of new materials and, especially,
metamaterials—truss lattices being their most prominent class. While their tailorable …

Inspired by crystallography, the periodic assembly of trusses into architected materials has
enjoyed popularity for more than a decade and produced countless cellular structures with …

Cellular solids (eg, foams and honeycombs) are widely found in natural and engineering
systems because of their high mechanical efficiency and tailorable properties. While these …

In the past decade, mechanical metamaterials have garnered increasing attention owing to
its novel design principles which combine the concept of hierarchical architecture with …

Designing metallic cellular structures with triply periodic minimal surface (TPMS) sheet cores
is a novel approach for lightweight and multi-functional structural applications. Different from …

In lightweight engineering, there is a constant quest for low‐density materials featuring high
mass‐specific stiffness and strength. Additively‐manufactured metamaterials are particularly …

Mechanical metamaterials can be defined as a class of architected materials that exhibit
unprecedented mechanical properties derived from designed artificial architectures rather …

After a decade of periodic truss-, plate-, and shell-based architectures having dominated the
design of metamaterials, we introduce the non-periodic class of spinodoid topologies …