• Title of article

    On the failure of a brittle material by high velocity gas jet impact

  • Author/Authors

    Andrei Kaliazine، نويسنده , , Morteza Eslamian، نويسنده , , Honghi N. Tran، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2010
  • Pages
    10
  • From page
    131
  • To page
    140
  • Abstract
    Failure of brittle solid bodies due to the impingement of a high velocity air jet on the body surface is studied, experimentally and theoretically. Using the linear elastic theory and stress distribution analysis, a general criterion for the failure of brittle materials impacted by a gas jet is derived. Several special cases of jet–solid body interaction including failure of thin and thick layers and cylindrical objects immersed in a crossflow gas stream are investigated and proper material failure criteria are developed. These criteria correlate the minimum jet peak impact pressure (PIP) required to break the material to the materialʹs tensile strength and Poissonʹs ratio. A series of experiments were performed using a laboratory-scale apparatus. Gypsum cast on steel tubes forming cylindrical samples was used as the model brittle material. Experimental data and high-speed breakup movies are employed to understand the gas jet–solid body interaction and to validate the theoretical criteria developed for the material failure. It is deduced that the failure of cylindrical samples impacted by a gas jet is by the formation and propagation of cracks. However, when the impact jet diameter is small, the cracks cannot propagate, and the material is failed due to localized surface pitting. One of the practical applications of this research is in Kraft recovery boilers, where high velocity supersonic steam jets are employed to remove deposits accumulated on the outer surfaces of the steam tubes.
  • Keywords
    Deposit failure , Jet impaction on a surface , Sootblowing , Supersonic jet–solid body interaction , Kraft recovery boilers
  • Journal title
    International Journal of Impact Engineering
  • Serial Year
    2010
  • Journal title
    International Journal of Impact Engineering
  • Record number

    1251867