Fe-based biodegradable materials as next-generation bone implants attract considerable
attentions due to outstanding mechanical properties and favorable biocompatibility …

Zinc (Zn)-based metals and alloys are emerging as promising biodegradable implant
materials due to their inherent biodegradability and good biocompatibility. However, this …

Abstract Novel Fe-Zn alloys were prepared by pulse electrodeposition to solve the low
corrosion rate of iron-based biodegradable materials for vascular stents. The effects of …

There is a growing focus on sustainability, characterized by making changes that anticipate
future needs and adapting them to present requirements. Sustainability is reflected in …

Fe-P alloys were electrochemically deposited at various pH values from a chloride bath. The
electrodeposition behavior was examined through cathodic polarization, cyclic voltammetry …

Fe-based amorphous alloys are an eco-friendly alternative to Ni-and Co-based amorphous
alloys, which are not sustainable. Herein, amorphous Fe–P alloys were electrodeposited …

In this study, nanostructured biodegradable Fe-35 wt.% Mn alloy prepared by 10 h high
energy ball milling followed by conventional cold press and sintering. Structural and …

The electrodeposition process of the Fe-P alloy on platinum substrate was investigated at
room temperature using a moderately alkaline bath containing FeCl 3, NaH 2 PO 2 and Na 3 …

Nowadays, alongside metallic biomaterials, there is increasing interest in using degradable
metals in an appreciable number of medical applications. There are new kinds of metallic …

Central composite circumscribed (CCC) design and response surface methodology (RSM)
were used to model and optimize the electrodeposition of amorphous Fe-P alloys. Based on …