• Title of article

    A FINITE ELEMENT METHOD BASED FORMABILITY ANALYSIS OF TRIANGULAR PATTERN OF SQUARE HOLE PERFORATED COMMERCIAL PURE ALUMINIUM SHEETS

  • Author/Authors

    Venkatachalam, G. VIT University - School of Mechanical and Building Sciences, India , Narayanan, S. VIT University - School of Mechanical and Building Sciences, India , Sathiyanarayanan, C. NIT Tiruchirappalli - Department of Production Engineering, India

  • From page
    209
  • To page
    213
  • Abstract
    Limiting strain is the strain at the onset of fracture / necking in a sheet metal. This limiting strain varies with respect to the material / condition of the material, strain condition in geometrical features of a sheet metal. In conventional sheet forming, the solid sheets posses higher limiting strain compared to that of perforated sheets. Perforated sheets find increased applications due to their reduced weight, versatility and aesthetic appearances. In this work, triangular pattern – square holed, perforated commercial aluminium sheets of various thicknesses are considered for the study. The limiting strain for the above sheet metals is predicted using Finite Element Analysis. It is found that the limiting strain is influenced by percentage of open area, ligament ratio, hole size and thickness
  • Keywords
    Finite element aanlysis , Ligament ratio , Open area , Thickness and hole size
  • Journal title
    International Journal of Mechanical and Materials Engineering
  • Journal title
    International Journal of Mechanical and Materials Engineering
  • Record number

    2565954