References
- 1. Wither P.J., Residual stress and its role in failure. Reports on Progress in Physics, 70 (2007) 2211–2264.
- 2. Rossini N.S., Dassisti M., Benyounis K.Y., Olabi A.G., Methods of measuring residual stresses in components. Materials & Design, 35 (2012) 572–588
- 3. Mathar J., Determination of Initial Stresses by Measuring the Deformation Around Drilled Holes. Trans., ASME 56 (1934) 249-254.
- 4. Huang X.; Liu Z. & Xie H., Recent progress in residual stress measurement techniques. Acta Mechanica Solida Sinica, 26 (2013) 570 – 583.
- 5. Gao J., Shang H., Deformation-pattern-based digital image correlation method and its application to residual stress measurement. Applied Optics, 48 (2009) 1371-1381.
- 6. Lord J.D., Penn D., Whitehead P.: The Application of Digital Image Correlation for Measuring Residual Stress by Incremental Hole Drilling. Applied Mechanics and Materials, 13-14 (2008) 65-73.
- 7. Cooreman S., Lecompte D., Sol H., Vantomme J., Debruyne D., Identification of Mechanical Material Behavior Through Inverse Modeling and DIC, Experimental Mechanics, 48 (2008) 421–43.
- 8. Helm J.D., McNeill S.R., Sutton M.A., Improved three-dimensional image correlation for surface displacement measurement. Opt. Eng., 35 (1996) 1911–1920.
- 9. Brynk T., Pakiela Z., Kulczyk M., Kurzydlowski K.J., Fatigue crack growth rate inultrafine-grained Al 5483 and 7475 alloys processed by hydro-extrusion. Mechanics of Materials, 67 (2013) 46–52.