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Degradable iron (Fe) based materials have been widely investigated for fracture fixation to overcome complications of permanent implants. Our study is focused on the development of a new Fe-Mn-Cu alloy with enhanced antimicrobial properties. In this work, Fe-Mn-Cu alloys, with up to 10 wt% copper (Cu), were prepared by powder metallurgy route. Degradation behaviour of the alloys were studied using potentiodynamic polarization test which showed nearly about 6 times increase in corrosion rate for 10 wt% Cu compared to the base alloy. Addition of Cu has significantly increased microhardness for up to 5 wt% and decreased thereafter. Broth micro-dilution test showed increased antimicrobial activity with Cu addition in Fe-Mn alloy while in vitro ...
Zn as a novel biodegradable metal holds great potential in bioresorbable implant application since i...
Fe30Mn6Si alloy was investigated as a potential degradable biomaterial, with the recently well-devel...
Titanium alloys are common biomedical materials due to their biocompatibility and mechanical perform...
Various compositions and synthesis methods of biodegradable iron-based alloys have been studied aimi...
Zinc (Zn) alloys have been paid increasing attention in the field of biodegradable implantable mater...
This research produced a porous Fe-8 wt.% Cu alloy by microwave sintering in order to achieve (i) an...
In this work, the role that manganese plays in determining the structure and performance of sintered...
This study aims to develop Ti–Cu–Mn alloys with antibacterial capability for reducing the possibilit...
Pure iron was determined to be a valid candidate material for biodegradable metallic stents in recen...
In this work, the role that manganese plays in determining the structure and performance of sintered...
In this work, porous FeMn(-xAg) alloys are fabricated through powder metallurgy methods. The effects...
Porous degradable metal is a promising material for hard-tissue scaffold application. It offers bett...
Powder sintering at 1200 °C for 180 min was used to produce Fe–Mn based alloys with tensi...
Powder sintering at 1200 °C for 180 min was used to produce Fe-Mn based alloys with tensile properti...
In this research work, the nanostructured Fe-Mn (BM0), Fe-Mn-Cu (BM1), Fe-Mn-W (BM2), and Fe-Mn-Co (...
Zn as a novel biodegradable metal holds great potential in bioresorbable implant application since i...
Fe30Mn6Si alloy was investigated as a potential degradable biomaterial, with the recently well-devel...
Titanium alloys are common biomedical materials due to their biocompatibility and mechanical perform...
Various compositions and synthesis methods of biodegradable iron-based alloys have been studied aimi...
Zinc (Zn) alloys have been paid increasing attention in the field of biodegradable implantable mater...
This research produced a porous Fe-8 wt.% Cu alloy by microwave sintering in order to achieve (i) an...
In this work, the role that manganese plays in determining the structure and performance of sintered...
This study aims to develop Ti–Cu–Mn alloys with antibacterial capability for reducing the possibilit...
Pure iron was determined to be a valid candidate material for biodegradable metallic stents in recen...
In this work, the role that manganese plays in determining the structure and performance of sintered...
In this work, porous FeMn(-xAg) alloys are fabricated through powder metallurgy methods. The effects...
Porous degradable metal is a promising material for hard-tissue scaffold application. It offers bett...
Powder sintering at 1200 °C for 180 min was used to produce Fe–Mn based alloys with tensi...
Powder sintering at 1200 °C for 180 min was used to produce Fe-Mn based alloys with tensile properti...
In this research work, the nanostructured Fe-Mn (BM0), Fe-Mn-Cu (BM1), Fe-Mn-W (BM2), and Fe-Mn-Co (...
Zn as a novel biodegradable metal holds great potential in bioresorbable implant application since i...
Fe30Mn6Si alloy was investigated as a potential degradable biomaterial, with the recently well-devel...
Titanium alloys are common biomedical materials due to their biocompatibility and mechanical perform...
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