Detail publikace

Diagnostic of Plasmachemical Removal of Copper Based Corrosion Layers

Originální název

Diagnostic of Plasmachemical Removal of Copper Based Corrosion Layers

Anglický název

Diagnostic of Plasmachemical Removal of Copper Based Corrosion Layers

Jazyk

en

Originální abstrakt

The article gives the results of complex corrosion layers removal by low-pressure hydrogen plasma. The corrosion layers contain also the chlorine, amino, carbon, sulfate and other corrosion types. The complex corrosion layers on the copper samples were prepared in this study. Besides the hydrogen and OH radicals spectra the spectra of molecules containing nitrogen, carbon and oxygen were recorded as a function of the plasma treatment duration. These species are removed from the plasma faster than oxides and thus the monitoring of OH radicals spectra will be sufficient for the process monitoring in the cases when the oxide corrosion is presented, too.

Anglický abstrakt

The article gives the results of complex corrosion layers removal by low-pressure hydrogen plasma. The corrosion layers contain also the chlorine, amino, carbon, sulfate and other corrosion types. The complex corrosion layers on the copper samples were prepared in this study. Besides the hydrogen and OH radicals spectra the spectra of molecules containing nitrogen, carbon and oxygen were recorded as a function of the plasma treatment duration. These species are removed from the plasma faster than oxides and thus the monitoring of OH radicals spectra will be sufficient for the process monitoring in the cases when the oxide corrosion is presented, too.

BibTex


@article{BUT42441,
  author="František {Krčma} and Marek {Cihlář} and Miloš {Klíma}",
  title="Diagnostic of Plasmachemical Removal of Copper Based Corrosion Layers",
  annote="The article gives the results of complex corrosion layers removal by low-pressure hydrogen plasma. The corrosion layers contain also the chlorine, amino, carbon, sulfate and other corrosion types. The complex corrosion layers on the copper samples were prepared in this study. Besides the hydrogen and OH radicals spectra the spectra of molecules containing nitrogen, carbon and oxygen were recorded as a function of the plasma treatment duration. These species are removed from the plasma faster than oxides and thus the monitoring of OH radicals spectra will be sufficient for the process monitoring in the cases when the oxide corrosion is presented, too.",
  address="AV ČR",
  chapter="42441",
  institution="AV ČR",
  journal="Chemické listy",
  number="S",
  volume="99",
  year="2005",
  month="september",
  pages="S583--S585",
  publisher="AV ČR",
  type="journal article - other"
}