Publication detail

Using of Argon-Hydrogen Plasma as a Tool for Removing of Corrosion Layers from Bronze Samples

MIKOVÁ, P. ŘÁDKOVÁ, L. JANOVÁ, D. KOPLÍK, J. KRČMA, F.

Original Title

Using of Argon-Hydrogen Plasma as a Tool for Removing of Corrosion Layers from Bronze Samples

English Title

Using of Argon-Hydrogen Plasma as a Tool for Removing of Corrosion Layers from Bronze Samples

Type

journal article - other

Language

en

Original Abstract

The model samples were used because of the simulation of real conditions. Samples were placed to the ambient soil for two years where the corrosion layers were formed. After that, the samples were excavated and stored to the special foils. The exposure of plasma followed at different conditions for each sample. The process of application of argon-hydrogen plasma was monitored by the optical emission spectroscopy. Before and after that, the microanalysis was performed and the results were compared.

English abstract

The model samples were used because of the simulation of real conditions. Samples were placed to the ambient soil for two years where the corrosion layers were formed. After that, the samples were excavated and stored to the special foils. The exposure of plasma followed at different conditions for each sample. The process of application of argon-hydrogen plasma was monitored by the optical emission spectroscopy. Before and after that, the microanalysis was performed and the results were compared.

Keywords

bronze samples, model corrosion layers, argon – hydrogen plasma, microanalysis

Released

11.01.2016

Pages from

59

Pages to

61

Pages count

3

BibTex


@article{BUT121435,
  author="Petra {Miková} and Lucie {Řádková} and Drahomíra {Janová} and Jan {Koplík} and František {Krčma}",
  title="Using of Argon-Hydrogen Plasma as a Tool for Removing of Corrosion Layers from Bronze Samples",
  annote="The model samples were used because of the simulation of real conditions. Samples were placed to the ambient soil for two years where the corrosion layers were formed. After that, the samples were excavated and stored to the special foils. The exposure of plasma followed at different conditions for each sample. The process of application of argon-hydrogen plasma was monitored by the optical emission spectroscopy. Before and after that, the microanalysis was performed and the results were compared.",
  chapter="121435",
  howpublished="online",
  number="2",
  volume="13",
  year="2016",
  month="january",
  pages="59--61",
  type="journal article - other"
}