Jacob Obitsø Nielsen scite author profile

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Evolution of hard Fe–C electrodeposits with temperature

Nielsen

Pantleon

2019

Surface Engineering

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The high microhardness of electrodeposited Fe-C coatings with around 800 HV after electrodeposition increased to about 1300 HV by dedicated annealing, reflecting a huge potential for surface engineering. The coatings remain nanocrystalline during annealing, but co-deposited carbon and oxygen result in temperature induced phase transformations. Energy-dispersive synchrotron diffraction revealed that carbides and oxides form during annealing of the asdeposited coating, which consisted mainly of carbon-free ferrite. The understanding of occurring precipitations was supplemented and verified by in-situ thermal analysis, which revealed the temperatures of thermal events related to decomposition reactions, the evolution of gasses and associated mass changes during annealing.

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In Situ Analysis of the Thermal Evolution of Electrodeposited Fe-C Coatings

Nielsen

Christiansen

Pantleon

2020

Metall Mater Trans A

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Thermal evolution of ferrite in electrodeposited iron‑carbon coatings in relation to phase transformations during post-deposition annealing

Nielsen

Grumsen

Pantleon

2021

Materials Characterization

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Repair of damaged surfaces with hard iron-carbon coatings

Erard

Nielsen

Pantleon

2022

Surface Engineering

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