A New Analytical Approach for Hole Drilling Residual Stress Analysis by Full Field Method

[+] Author and Article Information
Antonio Baldi

Department of Mechanical Engineering, University of Cagliari

J. Eng. Mater. Technol 127(2), 165-169 (Apr 06, 2005) (5 pages) doi:10.1115/1.1839211 History: Received December 02, 2003; Revised February 29, 2004; Online April 06, 2005
Copyright © 2005 by ASME
Your Session has timed out. Please sign back in to continue.


Rowlands, R. E., 1987, “Residual Stresses,” Handbook on Experimental Mechanics, SEM, Prentice-Hall Inc., pp. 768–813, Chap 18.
Lu, J. ed., 1996, Handbook of Measurement of Residual Stresses, SEM, The Fairmont Press, Inc.
Bray, D. E., ed., 2001, Residual Stress Measurement and General Nondestructive Evaluation, ASME, PVP-Vol. 429 .
Kandil, F. A., Lord, J. D., Fry, A. T., and Grant, P. V., 2001, “A review of residual stress measurement methods. A guide to Technique Selection,” Project CPM4.5, Measurement of Residual Stress in Components, NPL Report MATC(A)04, http://www.npl.co.uk/npl/cmmt/residualstress/pdf_files/review.pdf.
ASTM, 2003, “Standard Test Method for Determining Residual Stresses by the Hole-Drilling Strain-Gage Method,” Annual Book of ASTM Standatd. Vol. 03-01, E837-01e1, ASTM, Philadelphia.
Schajer,  G. S., 1988, “Measurement of non-uniform residual stresses using the hole-drilling method. Part I–Stress calculation procedures,” ASME J. Eng. Mater. Technol., 110, pp. 338–343.
Schajer,  G. S., 1988, “Measurement of non-uniform residual stresses using the hole-drilling method. Part II–Practical Application of the Integral Method,” ASME J. Eng. Mater. Technol., 110, pp. 344–349.
Zuccarello,   B., 1999, “Optimal calculation steps for the evaluation of residual stress by the incremental hole drilling method,” Exp. Mech., 39, pp. 117–124.
Ajovalasit,   A., 1979, “Measurement of residual stresses by the hole-drilling method: influence of hole eccentricity,” J. Strain Anal., 14, pp. 171–178.
Shchepinov, V. P., and Pisarev, V. S., 1996, Strain and stress analysis by holographic and speckle interferometry, John Wiley & Sons, New York.
Hung,  M. Y. Y., ed., 1997, “Special Issue on Optical Methods for Residual Strain Measurement,” Opt. Lasers Eng., 27, pp. 1–136.
Laermann, K. H., ed., 2000, Optical Methods in Experimental Solid Mechanics, Springer, Wien and NewYork.
Jacquot, P., 2002, “Pratiques actuelles en analyze de déformation par voie optique: exemple des contraintes résiduelles,” Caractérisation expérimentale des contraintes: techniques avancées et nouveaux matériaux, GFAC, Troyes, 7–8 mars., pp. 20–33.
Nicoletto,   G., 1991, “Moiré interferometry determination of residual stresses in presence of gradients,” Exp. Mech., 31, pp. 252–256.
Kujawinska, M., Sabut, L., Olszak, A., and Forno, C., 1994, “Automatic analysis of residual stresses in rails using grating interferometry,” Recent Advances in Experimental Mechanics, Balkema, Rotterdam, pp. 699–704.
Joh,  D., Byun,  K. J., and Ha,  J., 1994, “Thermal residual stresses in thick graphite/epoxy composite laminates-Uniaxial approach,” Exp. Mech., 35, pp. 70–76.
Wu,  Z., Lu,   J., and Han ,  B., 1998, “Study of residual stress distribution by a combined method of moiré interferometry and incremental hole drilling, Part I: Theory and Part II: Implementation,” ASME J. Appl. Mech., 65, pp. 837–850.
Ifju,  P. G. , Kilday ,  B. C., Niu,  X., and Liu,  S. C., 1999, “A novel method to measure residual stresses in laminated composites ,” J. Compos. Mater., 33, pp. 1511–1515.
Schwarz,  Y. R. C., Kutt ,  L. M., and Papazian,  J. M., 2000, “Measurement of residual stress using interferometric moiré: a new insight,” Exp. Mech., 40, pp. 271–281.
Wu,  Z., and Lu,  J., 2000, “Study of Surface Residual Stress by Three-Dimensional Displacement Data at a Single Point in Hole Drilling Method,” ASME J. Eng. Mater. Technol., 122, pp. 215–220.
Bulhak, J., Lu, J., Montay, G., Surrel, Y., and Vautrin, A., 2000, “Grating shearography and its application to residual stresses evaluation,” Interferometry in speckle light: Theory and Applications, Jacquot, P. and Fournier, J. M. eds., Springer, Berlin, pp. 607–614.
Vikram,  C. S., Pechersky ,  M. J., Feng,  C., and Engelhaupt,  D., 1996, “Residual stress analysis by local laser heating and speckle correlation interferometry,” Exp. Tech., 20, pp. 27–30.
Zhang,  J., and Chong,  T. C., 1998, “Fiber electronic speckle pattern interferometry and its applications in residual stress measurements,” Appl. Opt., 37, pp. 6707–6715.
Diaz,  F. V. , Kaufmann ,  G. H., and Galizzi,  G. E., 2000, “Determination of residual stresses using hole drilling and digital speckle pattern interferometry with automated data analysis,” Opt. Lasers Eng., 33, pp. 39–48.
Albertazzi,   A., Kanda ,  C., Borges ,  M. R., and Hrebabetzky,  F., 2000, “A radial in-plane interferometer for ESPI measurement,” Laser interferometry X. Techniques and Analysys, Kujawinska, M. et al., eds., Bellingham (Washington), Proc. SPIE, 4101, pp. 77–88.
François, M., Montay, G., Plaut-Aubry, R., and Chalvidan, V., 2001, “Analyze de contraintes résiduelles par la méthode du trou, comparaison de l’interférométrie laser de speckle avec les jauges piézo-résistives,” Colloque Photomécanique 2001, Berhaud, Y. et al., eds., GAMAC, Paris, pp. 303–310.
Focht,  G., and Schiffner ,  K., 2003, “Determination of residual stresses by an optical correlative hole-drilling method,” Exp. Mech., 43, pp. 97–104.
Baldi,   A., and Jacquot,  P., 2003, “Residual stresses investigations in composite samples by speckle interferometry and specimen repositioning,” Speckle Metrology 2003, , , , , and ., eds., Proc. SPIE, Nellingham, WA, 4933, pp. 141–148.
Nelson,  D. V., and McCrickerd,  J. T., 1986, “Residual-stress determination through combined use of holographic interferometry and blind-hole drilling,” Exp. Mech., 26, pp. 371–378.
Nelson,  D. V., Fuchs ,  E., Makino ,  A., and Williams,  D., 1994, “Residual-stress determination by single-axis holographic interferometry and hole drilling-Part I: Theory,” Exp. Mech., 35, pp. 66–78.
Lin,  S. T. , Hsieh ,  C.-T. J., and Lee,  C. K. , 1995, “Full field phase-shifting holographic blind-hole technique for in-plane residual stress detection,” International Conference on Application of Optical Holography, Honda, T., ed., Bellingham (Washington ), Proc. SPIE, 2577, pp. 226–237.
Steinzig, M., Hayman, G., and Rangaswamy, P., 2001, “Data reduction methods for digital holographic residual stress measurement,” Proc. of the 2001 SEM Annual Conference and Exposition on Experimental and Applied Mechanics, SEM, Bethel, Conn., CDROM edition.
Press, W. H., Teukolsky, S. A., Vetterling, W. T., and Flannery, B. P., 1992, Numerical Recipes in C. The Art of Scientific Computing, 2nd ed., Cambridge, Cambridge University Press, pp. 59–70, 676–681.
Oettel, R., 2000, “The Determination of Uncertainties in Residual Stress Measurement (Using the hole drilling technique),” Manual of Codes of Practice for the determination of uncertainties in mechanical tests on metallic materials. Project UNCERT, EU Contract SMT4-CT97-2165, Standards Measurement & Testing Program, ISBN 0 946754 41 1, Issue 1.
Weeks,  A. R. , and Myler ,  H. R., 1993, “Computer-generated noise images for the evaluation of image processing algorithms,” Opt. Eng., 32(5), pp. 982–992.


Grahic Jump Location
Reference configuration
Grahic Jump Location
F.E. mesh used for estimation of calibration coefficients
Grahic Jump Location
Simulated in-plane sensitivity speckle field (σx =35 MPa,σy=15  Mpa,τxy=10 Mpa)
Grahic Jump Location
Experimental residual stress field in a composite specimen
Grahic Jump Location
Noise-free u displacement field
Grahic Jump Location
Noisy u displacement field
Grahic Jump Location
Relative error of the algorithm as a function of Von Mises equivalent stress. Different curves correspond to increasing noise level.




Some tools below are only available to our subscribers or users with an online account.

Related Content

Customize your page view by dragging and repositioning the boxes below.

Related Journal Articles
Related eBook Content
Topic Collections

Sorry! You do not have access to this content. For assistance or to subscribe, please contact us:

  • TELEPHONE: 1-800-843-2763 (Toll-free in the USA)
  • EMAIL: asmedigitalcollection@asme.org
Sign In