Houshang Alamdari scite author profile

An Fe-35 wt-%Mn alloy, aimed to be used as a metallic degradable biomaterial for stent applications, was prepared via a powder metallurgy route. The effects of processing conditions on the microstructure, mechanical properties, magnetic susceptibility and corrosion behaviour were investigated and the results were compared to those of the SS316L alloy, a gold standard for stent applications. The Fe35Mn alloy was found to be essentially austenitic with fine MnO particles aligned along the rolling direction. The alloy is ductile with a strength approaching that of wrought SS316L. It exhibits antiferromagnetic behaviour and its magnetic susceptibility is not altered by plastic deformation, providing an excellent MRI compatibility. Its corrosion rate was evaluated in a modified Hank's solution, and found superior to that of pure iron (slow in vivo degradation rate). In conclusion, the mechanical, magnetic and corrosion characteristics of the Fe35Mn alloy are considered suitable for further development of a new class of degradable metallic biomaterials.

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Cu- and Pd-substituted nanoscale Fe-based perovskites for selective catalytic reduction of NO by propene

Zhang

Villanueva

Alamdari³

et al. 2006

Journal of Catalysis

135

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Conversion of syngas to higher alcohols over nanosized LaCo0.7Cu0.3O3 perovskite precursors

Thảo

Zahedi-Niaki

Alamdari

et al. 2007

Applied Catalysis A: General

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Oxygen storage capacity of La1−xA′xBO3 perovskites (with A′=Sr, Ce; B=Co, Mn)—relation with catalytic activity in the CH4 oxidation reaction

Royer

Alamdari²,

Duprez

et al. 2005

Applied Catalysis B: Environmental

162

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