Laser additive manufacturing of bulk and porous shape-memory NiTi alloys: From processes to potential biomedical applications

• Published in: MRS bulletin Vol. 41; no. 10; pp. 765 - 774
• Main Authors: Dadbakhsh, Sasan, Speirs, Mathew, Van Humbeeck, Jan, Kruth, Jean-Pierre
• Format: Journal Article
• Language: English
• Published: New York, USA Cambridge University Press 01.10.2016; Springer International Publishing; Springer Nature B.V
• Subjects: Additive manufacturing; biomedical; Deformation; Intermetallics; laser; Lasers; memory; metal; Metal forming; Metallic Materials for 3D Printing; Nickel base alloys; Nickel compounds; Nickel titanides; Powder metallurgy; powder processing; Process parameters; Shape memory alloys; Stainless steel; Temperature; Titanium alloys; Titanium compounds; metal; memory; laser; powder processing; biomedical
• ISSN: 0883-7694; 1938-1425; 1938-1425
• DOI: 10.1557/mrs.2016.209

NiTi alloys are well known not only due to their exceptional shape-memory ability to recover their primary shape, but also because they show high ductility, excellent corrosion and wear resistance, and good biological compatibility. They have received significant attention especially in the field of laser additive manufacturing (AM). Among laser AM techniques, selective laser melting and laser metal deposition are utilized to exploit the unique properties of NiTi for fabricating complex shapes. This article reviews the properties of bulk and porous laser-made NiTi alloys as influenced by both process and material parameters. The effects of processing parameters on density, shape-memory response, microstructure, mechanical properties, surface corrosion, and biological properties are discussed. The article also describes potential opportunities where laser AM processes can be applied to fabricate dedicated NiTi components for medical applications.