• Title of article

    Independency of Elasticity on Residual Stress of Room Temperature Rolled Stainless Steel 304 Plates for Structure Materials

  • Author/Authors

    Parikin National Nuclear Energy Agency - Center for Science and Technology of Advance Materials, Indonesia , Allen, David Queensland University of Technology - School of Health and Mechanical Engineering, Australia

  • From page
    97
  • To page
    102
  • Abstract
    Mechanical strengths of materials are widely expected in general constructions of any building. These properties depend on its formation (cold/hot forming) during fabrication. This research was carried out on cold-rolled stainless steel (SS) 304 plates, which were deformed to 0, 34, 84, and 152% reduction in thickness. The tests were conducted using Vickers method. Ultra micro indentation system (UMIS) 2000 was used to determine the mechanical properties of the material, i.e.: hardness, modulus elasticity, and residual stresses. The microstructures showed lengthening outcropping due to stress corrosion cracking for all specimens. It was found that the tensile residual stress in a specimen was maximum, reaching 442 MPa, for a sample reducing 34% in thickness and minimum; and about 10 MPa for a 196% sample. The quantities showed that the biggest residual stress caused lowering of the proportional limit of material in stress-strain curves. The proportional modulus elasticity varied between 187 GPa and of about 215 GPa and was free from residual stresses.
  • Keywords
    cold , rolling , hardness and microstructures , modulus elasticity , residual stress , stainless steel 304
  • Journal title
    Makara Journal Of Technology
  • Journal title
    Makara Journal Of Technology
  • Record number

    2717656