[HTML][HTML] A review on biomedical implant materials and the effect of friction stir based techniques on their mechanical and tribological properties
Various biomedical implants for prolonged usage in the human body have been created in
recent years in a massive and steadily increasing number. Friction stir techniques are solid …
recent years in a massive and steadily increasing number. Friction stir techniques are solid …
[HTML][HTML] Additive manufacturing of biodegradable magnesium-based materials: Design strategies, properties, and biomedical applications
Magnesium (Mg)-based materials are a new generation of alloys with the exclusive ability to
be biodegradable within the human/animal body. In addition to biodegradability, their …
be biodegradable within the human/animal body. In addition to biodegradability, their …
[HTML][HTML] 3D bio-printing for use as bone replacement tissues: A review of biomedical application
Since we are able to use 3D printers, producing porous metal scaffolds become very easy.
Contrary to usual methods, 3D printing of porous scaffolds is determined by a controllable …
Contrary to usual methods, 3D printing of porous scaffolds is determined by a controllable …
Magnesium role in additive manufacturing of biomedical implants–challenges and opportunities
V Kaushik, N Kumar, M Vignesh - Additive Manufacturing, 2022 - Elsevier
Materials like, stainless steel, titanium, magnesium-based alloys, cobalt-based alloys are
used as suitable materials for biomedical implants. Magnesium and its alloys are highly …
used as suitable materials for biomedical implants. Magnesium and its alloys are highly …
Possibilities, performance and challenges of nitinol alloy fabricated by Directed Energy Deposition and Powder Bed Fusion for biomedical implants
M Sathishkumar, CP Kumar, SSS Ganesh… - Journal of Manufacturing …, 2023 - Elsevier
Abstract Shape Memory Alloys (SMAs) are metals with unique properties that allow them to
revert to a predefined shape when heated. Thermal and thermo-mechanical treatments can …
revert to a predefined shape when heated. Thermal and thermo-mechanical treatments can …
Additive manufacturing of AISI 316L stainless steel: a review
D D'Andrea - Metals, 2023 - mdpi.com
Additive manufacturing (AM) represents the present and the future of manufacturing
production, thanks to a new design paradigm that allows the customization of components …
production, thanks to a new design paradigm that allows the customization of components …
Metal additive manufacturing of commercial aerospace components–A comprehensive review
Metal additive manufacturing (AM) has matured and grown from its infancy in the research
stage to the fabrication of new and advanced components for its supreme applications. AM …
stage to the fabrication of new and advanced components for its supreme applications. AM …
Additive manufacturing of Titanium alloy for aerospace applications: Insights into the process, microstructure, and mechanical properties
The aerospace sector has been transformed by recent advances in titanium alloy additive
manufacturing for aerospace components, which introduces novel manufacturing …
manufacturing for aerospace components, which introduces novel manufacturing …
[HTML][HTML] Optimization of composite extrusion modeling process parameters for 3D printing of low-alloy steel AISI 8740 using metal injection moulding feedstock
Abstract Composite Extrusion Modeling (CEM) is an advanced material extrusion additive
manufacturing technique for low-cost rapid production of complex parts. In this work, a …
manufacturing technique for low-cost rapid production of complex parts. In this work, a …
Latest developments and insights of orthopedic implants in biomaterials using additive manufacturing technologies
The additive manufacturing (AM) process is used for joining materials to make objects from
3D model data, usually layer upon layer, contrary to subtractive manufacturing methods …
3D model data, usually layer upon layer, contrary to subtractive manufacturing methods …