Additive Manufacturing (AM) has revolutionized the manufacturing industry in several
directions. Laser powder bed fusion (LPBF), a powder bed fusion AM process, has been …

Metal additive manufacturing is a disruptive technology that is revolutionizing the
manufacturing industry. Despite its unrivaled capability for directly fabricating metal parts …

Additive manufacturing (AM) has rapidly changed both large-and small-scale production
environments across many industries. By re-envisioning parts from the ground up, not …

While significant progress has been made in understanding laser powder bed fusion (L-
PBF) as well as the fabrication of various materials using this technology, there is still limited …

Ti and its alloys have been broadly adopted across various industries owing to their
outstanding properties, such as high strength-to-weight ratio, excellent fatigue performance …

Donor shortages for organ transplantations are a major clinical challenge worldwide.
Potential risks that are inevitably encountered with traditional methods include …

Since its inception, significant progress has been made in understanding additive
manufacturing (AM) processes and the structure and properties of the fabricated metallic …

The growing need to develop cost-effective and efficient alloys requires enhancing the
flexibility of the current production methods. Additive manufacturing (AM), as an emerging …

β-type titanium (Ti) alloys have attracted a lot of attention as novel biomedical materials in
the past decades due to their low elastic moduli and good biocompatibility. This article …

Aviation and automobile industries demand high strength, fatigue resistant, and wear-
resistant materials in combination with lightweight, especially for structural applications. On …