• Title of article

    Structural characterization of basalt-based glass–ceramic coatings

  • Author/Authors

    Senol Yilmaz، نويسنده , , Gunhan Bayrak، نويسنده , , Saduman Sen، نويسنده , , Ugur Sen، نويسنده ,

  • Issue Information
    ماهنامه با شماره پیاپی سال 2006
  • Pages
    5
  • From page
    1092
  • To page
    1096
  • Abstract
    There are a lot of technologically interesting characteristics of glass–ceramics, which are hard, wear resistant, oxidation and corrosion resistant ceramic materials. In the present study, the production of the basalt-based glass–ceramic coating by atmospheric plasma spray technique and their structural characterization were reported. Basalt-based glass coating was performed on AISI 1040 steel substrate which was pre-coated with Ni–5 wt% Al by using plasma spray gun. Basalt coatings of the glass form were crystallized at 800, 900 and 1000 °C for 1–4 h in orders to transform to the glass–ceramic structure. The presence of augite [(CaFeMg)SiO3], diopside [Ca(Mg0.15Fe0.85)(SiO3)2] and aluminian diopside [Ca(Mg,Al)(Si,Al)2O6] crystalline phases formed in the basalt-based glass–ceramic coating layer was detected by X-ray diffraction analysis. Optical microscopy with micrometer was used for metallographic examinations. Differential scanning calorimeter was used for determining the crystallization temperature of glass form basalt-based coatings. Microhardness measurements were carried out on the basalt-based glass–ceramic coating layer with Vickers indenter. The hardness of coating layers is changing between 1009 and 1295 HV0.05 depending on crystallization temperature and process times. It was found that, the higher the crystallization temperature, the more the crystalline phases were resulted. In addition, the lower the crystallization temperature and the longer the treatment time, the harder the coating layer became.
  • Keywords
    Crystallization , Basalt , Glass–ceramic , Plasma spray coating
  • Journal title
    Materials and Design
  • Serial Year
    2006
  • Journal title
    Materials and Design
  • Record number

    1067307