Titanium (Ti)-based alloys exhibit low elastic modulus that better match the modulus of
human bones than several other metallic biomaterials while providing high strength to …

Ti is widely used as a material for orthopedic implants. As rapid and effective
osseointegration is a key factor for the successful application of implants, biologically inert Ti …

The evolution and progress of 3D printing and additive manufacturing (AM) processes have
revolutionized the defence, aviation, automobile and health care domain. In fact, this decade …

Metallic biomedical implants comprise almost over 95% of the orthopedic and dental implant
market worldwide. A steady increase in surgical interventions using metallic implants is …

Implant failure is a common problem in orthopedic applications, which causes pain and
stress for patients, prolonged antibiotic therapy, increased time and cost of hospitalization …

Titanium‐based orthopedic implants are increasingly being fabricated using additive
manufacturing (AM) processes such as selective laser melting (SLM), direct laser deposition …

Titanium (Ti) and its alloys may be processed via advanced powder manufacturing routes
such as additive layer manufacturing (or 3D printing) or metal injection moulding. This field …

Abstract 3D Printing (3DP) or additive manufacturing (AM) enables parts with complex
shapes, design flexibility, and customization opportunities for defect specific patient-matched …

Evolution of metallurgy and biomaterials has progressively shifted the focus of metallic bone-
interfacing implant design from adequate mechanical strength and biocompatibility to rapid …

ABSTRACT Introduction: Titanium (Ti) and their alloys are used as main implant materials in
orthopedics and dentistry for decades having superior mechanical properties, chemical …