Tremendous growth has been witnessed in the field of additive manufacturing (AM)
technology over the last few decades. It offers a plethora of applications and is already being …

The ability of shape memory alloys (SMAs) to recover inelastic strains larger than any other
metallic alloy has prompted their use in a wide range of applications. However, for the most …

In energy absorption applications, architectured metallic materials generally suffer from
unrecoverable deformation as a result of local yield damage or inelastic buckling. Nitinol …

The additive manufacturing of shape memory materials, commonly known as 4D printing,
facilitates the achievement of a complex 3D structure that possesses a temperature …

In this work, response surface methodology (RSM), as a reliable and cheap prediction tool,
was developed to establish a quadratic regression model between selective laser melting …

NiTi alloys are widely used in different industrial and medical applications. Due to the
inherent difficulty in the machining of these alloys, the use of Additive Manufacturing (AM) …

Dense and crack-free specimens of the shape memory alloy Cu 71.6 Al 17 Mn 11.4 (at.%)
were produced via laser powder bed fusion across a wide range of process parameters. The …

The size effect of Ti-6Al-4V submillimeter structures manufactured by selective laser melting,
which is critical for metallic mechanical metamaterials of unique mechanical properties, for …

Additive manufacturing of architected materials, particularly lattice or porous structures, has
garnered significant interest in recent years due to its ability to enhance weight-to-strength …

One of the advantages of emerging additive manufacturing is providing opportunities to
build parts with complex geometries. The microstructure and compressive response of …