Lattice structures, which are also known as architected cellular structures, have been
applied in various industrial sectors, owing to their fascinated performances, such as low …

Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

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 …

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

Abstract Mechanical Metamaterials (MMs) are artificially designed structures with
extraordinary properties that are dependent on micro architectures and spatial tessellations …

Additive manufacturing (AM), particularly Selective Laser Melting (SLM) has enabled
development of lattice structures with unique properties. Through control of various …

Compared to single-phase structures, interpenetrating lattice structures display the potential
to achieve a wide range of tailorable physical and mechanical properties. Herein, we …

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 …

Recent advancements in manufacturing, finite element analysis (FEA), and optimization
techniques have expanded the design possibilities for metamaterials, including isotropic …

Lattice structures are vital for biological applications because of its numerous benefits (for
example, faster and stronger binding to bone tissue). Consequently, processing of lattice …