Laser-based additive manufacturing of bulk metallic glasses: recent advances and future perspectives for biomedical applications

Journal article : Review

Bulk metallic glasses (BMGs) are non-crystalline class of advanced materials and have found potential applications in the biomedical field. Although there are numerous conventional manufacturing approaches for processing BMGs, the most commonly used like copper-mould casting have some limitations. It is not easy to manage and control the critical cooling rate, especially when the fabrication of complex BMG geometries is involved. Other limitations of these techniques include the size constraints, non-flexibility, and the tooling and accessories are costly. The emergence of additive manufacturing (AM) has opened another promising manufacturing route for processing BMGs. AM processes, particularly laser powder-bed fusion (PBF-LB/M) builds parts layer-by-layer and successively fused the powder-melted feedstocks using prescribed computer-controlled laser scanner system, thereby forming a BMGs part upon sufficiently rapid cooling to ensure the glass forming-ability. PBF-LB/M overcomes the limitations of the pre-existing BMGs processing techniques by not only improving the part size, but also produces exceptionally complex structures and patient-specific implants. This review article aims to summarise and discuss the mechanism of BMGs formation through PBF-LB/M for biomedical applications and to highlight the current scientific and technological challenges as well as the future research perspectives towards overcoming the pore-mediated microcracks, partial crystallisation, brittleness and BMG size constraint.

Authors: Aliyu, AAA; Panwisawas, C; Shinjo, J; Puncreobutr, C; Reed, RC

• Publication status: Published
• Peer review status: Peer reviewed
• Publisher: Elsevier
• Journal: Journal of Materials Research and Technology
• Volume: 23
• Pages: 2956-2990
• Publication date: 2023-02-02
• Acceptance date: 2023-01-25
• DOI: 10.1016/j.jmrt.2023.01.184
• EISSN: 2214-0697
• ISSN: 2238-7854
• Language: English
• Keywords: additive manufacturing; laser; powder bed fusion process; implants; FFR; bulk metallic glass; biomaterials
• Subtype: Review