Kay-Peter Hoyer scite author profile

FeMn‐Ag alloys as potential bioresorbable implant materials were prepared by selective laser melting (SLM) from mixed powders of FeMn and Ag. The microstructure of the samples is characterized by presence of few micrometers to several tens of micrometer large Ag‐phases within the FeMn matrix. The microstructure dependent corrosion and biomineralization processes in simulated body fluid (SBF) were studied in‐situ by means of electrochemical impedance spectroscopy (EIS). The microstructure and local surface film formation were analyzed by electron microscopy (FE‐SEM) and Raman microscopy. The results clearly show that the Ag‐phase acts as a local cathode within the FeMn matrix. However, surface film formation is observed both for the Ag‐ and the FeMn‐phases, which potentially lowers the self‐corrosion as well as the galvanic coupling of the two phases. The formation of AgCl on the Ag‐phases and mixed metal phosphates on the FeMn‐phases can be observed by local Raman spectroscopic analysis in combination with FE‐SEM characterization.

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Fatigue crack growth behavior and mechanical properties of additively processed EN AW-7075 aluminium alloy

Reschetnik

Brüggemann

Aydinöz

et al. 2016

Procedia Structural Integrity

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Formation of insoluble silver-phases in an iron-manganese matrix for bioresorbable implants using varying laser beam melting strategies

Krüger

Hoyer

Hengsbach

et al. 2022

Journal of Materials Research and Technology

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Kay-Peter Hoyer

Duplex stainless steel fabricated by selective laser melting - Microstructural and mechanical properties

Hot isostatic pressing of IN718 components manufactured by selective laser melting

Corrosion properties of bioresorbable FeMn‐Ag alloys prepared by selective laser melting

Fatigue crack growth behavior and mechanical properties of additively processed EN AW-7075 aluminium alloy

Formation of insoluble silver-phases in an iron-manganese matrix for bioresorbable implants using varying laser beam melting strategies

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