Detail publikace

Plasmachemical Removal of Corrosion Layers from Brass

KRČMA, F. MAZÁNKOVÁ, V. SÁZAVSKÁ, V. ŘÁDKOVÁ, L.

Originální název

Plasmachemical Removal of Corrosion Layers from Brass

Anglický název

Plasmachemical Removal of Corrosion Layers from Brass

Jazyk

en

Originální abstrakt

Influence of RF low-pressure hydrogen plasma on corroded brass samples was investigated. OH radicals formed during this process were measured by optical emission spectroscopy; simultaneously, sample temperature was measured by a thermocouple. The value of integral intensity of OH radicals represented quantitative ablation of oxygen from a corrosion layer. Sample temperature was an important indicator of sample protection against metallographic changes. It was proved that both hydrogen atom reduction and thermal decomposition were employed in the removal process.

Anglický abstrakt

Influence of RF low-pressure hydrogen plasma on corroded brass samples was investigated. OH radicals formed during this process were measured by optical emission spectroscopy; simultaneously, sample temperature was measured by a thermocouple. The value of integral intensity of OH radicals represented quantitative ablation of oxygen from a corrosion layer. Sample temperature was an important indicator of sample protection against metallographic changes. It was proved that both hydrogen atom reduction and thermal decomposition were employed in the removal process.

Dokumenty

BibTex


@inproceedings{BUT93227,
  author="František {Krčma} and Věra {Mazánková} and Věra {Sázavská} and Lucie {Řádková}",
  title="Plasmachemical Removal of Corrosion Layers from Brass",
  annote="Influence of RF low-pressure hydrogen plasma on corroded brass samples was investigated.
OH radicals formed during this process were measured by optical emission spectroscopy;
simultaneously, sample temperature was measured by a thermocouple. The value of integral
intensity of OH radicals represented quantitative ablation of oxygen from a corrosion layer.
Sample temperature was an important indicator of sample protection against metallographic
changes. It was proved that both hydrogen atom reduction and thermal decomposition were
employed in the removal process.",
  address="EPS",
  booktitle="Europhysics Conference Abstracts",
  chapter="93227",
  howpublished="electronic, physical medium",
  institution="EPS",
  year="2012",
  month="july",
  pages="P2.3.31--P2.3.32",
  publisher="EPS",
  type="conference paper"
}