• Title of article

    Simulation of thermal stresses due to grinding

  • Author/Authors

    Moulik، نويسنده , , P.N and Yang، نويسنده , , H.T.Y and Chandrasekar، نويسنده , , S، نويسنده ,

  • Issue Information
    ماهنامه با شماره پیاپی سال 2001
  • Pages
    21
  • From page
    831
  • To page
    851
  • Abstract
    An efficient finite element procedure has been developed to calculate the temperatures and stresses arising due to a moving source of heat. The procedure is applied to calculate the thermal stresses produced in hardened steels during grinding. The thermal load during grinding is modeled as a uniformly or triangularly distributed, 2D heat source moving across the surface of a half-space, which is insulated or subjected to convective cooling. The grinding of elastic and elastic–plastic workpiece materials has been simulated. The calculated transient stresses and temperatures in an elastic solid are found to be in good agreement with prior analytical and numerical results. In an elastic–plastic workpiece material, for which no analytical solution is available for the residual stress distributions, the finite element calculations show that the near surface residual stress is predominantly tensile and that the magnitude of this stress increases with increasing heat flux values. Based on an analysis of the effects of workpiece velocity, heat flux magnitude and convective cooling, on the residual stress distributions in an elastic–plastic solid, it is seen that the calculated thermal stress distributions are consistent with experimentally measured residual stresses on ground surfaces. Furthermore, the results explain often cited observations pertaining to thermally induced grinding stresses in metals.
  • Keywords
    Grinding , Residual stress , moving heat source
  • Journal title
    International Journal of Mechanical Sciences
  • Serial Year
    2001
  • Journal title
    International Journal of Mechanical Sciences
  • Record number

    1403474