Biodegradable iron and porous iron: mechanical properties, degradation behaviour, manufacturing routes and biomedical applications
Biodegradable metals have been extensively studied due to their potential use as temporary
biomedical devices, on non-load bearing applications. These types of implants are …
biomedical devices, on non-load bearing applications. These types of implants are …
The potential of duplex stainless steel processed by laser powder bed fusion for biomedical applications: A review
The austenitic stainless steels utilized in the production of osteosynthesis devices are
susceptible to crevice corrosion. Several studies have compared the corrosive behavior of …
susceptible to crevice corrosion. Several studies have compared the corrosive behavior of …
Influence of Milling Time and Ball-to-Powder Ratio on Mechanical Behavior of FeMn30Cu5 Biodegradable Alloys Prepared by Mechanical Alloying and Hot-Forging
FeMn30Cu5 is a biodegradable and multi-component alloy that can be used to repair bone
defects in load-bearing parts in the medical field. This work focuses on studying the …
defects in load-bearing parts in the medical field. This work focuses on studying the …
[HTML][HTML] Study of the effect of magnetic fields on static degradation of Fe and Fe-12Mn-1.2 C in balanced salts modified Hanks' solution
I Limón, M Multigner, C Paternoster, M Lieblich… - Bioactive Materials, 2024 - Elsevier
Iron and its alloys are attractive as biodegradable materials because of their low toxicity and
suitable mechanical properties; however, they generally have a slow degradation rate …
suitable mechanical properties; however, they generally have a slow degradation rate …
Microstructure, shape memory effect, chemical composition and corrosion resistance performance of biodegradable FeMnSi-Al alloy
The medical applications of degradable iron-based biomaterials have been targeted by re-
searchers due to their special properties that they present after alloying with various …
searchers due to their special properties that they present after alloying with various …
FeMnCSi alloy for degradable pin implants: surface and in vitro characterization
MI Hankovits, J Merlo, L Rico, AV Druker… - Materials Chemistry and …, 2024 - Elsevier
Biodegradable metals such iron-based materials, are studied as temporary implants in the
orthopedic field due to their adequate mechanical properties, non-toxic degradation …
orthopedic field due to their adequate mechanical properties, non-toxic degradation …
[PDF][PDF] Cimpoes, u
AM Roman, V Geantă - Rct, 2022 - academia.edu
Special materials are required in many applications to fulfill specific medical or industrial
necessities. Biodegradable metallic materials present many attractive properties, especially …
necessities. Biodegradable metallic materials present many attractive properties, especially …
In vitro corrosion behavior of Zn3Mg0. 7Y biodegradable alloy in simulated body fluid (SBF)
Biodegradable metallic materials represent a new class of biocompatible materials for
medical applications based on numerous advantages. Among them, those based on zinc …
medical applications based on numerous advantages. Among them, those based on zinc …
Opportunities and challenges of Fe-based shape memory alloys for biomedical applications–Short review
Massive technological developments can produce material functionality with a wide variety
to meet various needs such as flexibility and smart devices, one of which is shape memory …
to meet various needs such as flexibility and smart devices, one of which is shape memory …
Investigations on the Degradation Behavior of Processed FeMnSi-xCu Shape Memory Alloys
A new functional Fe-30Mn-5Si-xCu (x= 1.5 and 2 wt%) biomaterial was obtained from the
levitation induction melting process and evaluated as a biodegradable material. The …
levitation induction melting process and evaluated as a biodegradable material. The …