• Title of article

    The role of local strains from prior cold work on stress corrosion cracking of α-brass in Mattssonʹs solution

  • Author/Authors

    Ulaganathan، نويسنده , , Jaganathan and Newman، نويسنده , , Roger C.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    11
  • From page
    127
  • To page
    137
  • Abstract
    The dynamic strain rate ahead of a crack tip formed during stress corrosion cracking (SCC) under a static load is assumed to arise from the crack propagation. The strain surrounding the crack tip would be redistributed as the crack grows, thereby having the effect of dynamic strain. Recently, several studies have shown cold work to cause accelerated crack growth rates during SCC, and the slip-dissolution mechanism has been widely applied to account for this via a supposedly increased crack-tip strain rate in cold worked material. While these interpretations consider cold work as a homogeneous effect, dislocations are generated inhomogeneously within the microstructure during cold work. The presence of grain boundaries results in dislocation pile-ups that cause local strain concentrations. The local strains generated from cold working α-brass by tensile elongation were characterized using electron backscatter diffraction (EBSD). The role of these local strains in SCC was studied by measuring the strain distributions from the same regions of the sample before cold work, after cold work, and after SCC. Though, the cracks did not always initiate or propagate along boundaries with pre-existing local strains from the applied cold work, the local strains surrounding the cracked boundaries had contributions from both the crack propagation and the prior cold work.
  • Keywords
    Cold work , strain localization , Stress corrosion cracking , Electron backscatter diffraction
  • Journal title
    Materials Characterization
  • Serial Year
    2014
  • Journal title
    Materials Characterization
  • Record number

    2269424