A method combining moire´ interferometry, Twyman–Green interferometry, and blind hole drilling method is proposed for simple and accurate determination of residual stress. The relationship between the three-dimensional surface displacements produced by introducing a blind hole and the corresponding residual stress is established by employing the Fourier expansion solution containing a set of undetermined coefficients. The coefficients are calibrated by 3D finite element method. The surface in-plane displacements Ux,Uy, and the out-of-plane displacement Uz produced by the relaxation of residual stress are measured by moire´ interferometry and Twyman–Green interferometry, respectively, after the hole-drilling procedure. The complete three-dimensional displacement data at any single point around the hole can be used for residual stress determination. The accuracy of the method is analyzed and the experimental procedure is described to determine the sign of residual stresses. As an implementation of the method, a shot peening residual stress problem is studied. [S0094-4289(00)00802-1]

1.
Soete
,
W.
,
1949
, “
Measurement and Relaxation of Residual Stress
,”
Sheet Met. Ind.
,
26
, No.
266
, pp.
1269
1281
.
2.
Kelsey, R. A., 1956, “Measuring Non-Uniform Residual Stresses by the Hole Drilling Method,” Proc. SESA, No. 1, pp. 181–194.
3.
Schajer
,
G. S.
,
1981
, “
Application of Finite Element Calculations to Residual Stress Measurements
,”
ASME J. Eng. Mater. Technol.
,
103
, No.
4
, pp.
157
163
.
4.
Lu, J., Niku-Lari, A., and Flavenot, J. F., 1985, “Mesure de la Distribution des Contraintes Residuelles en Profondeur par la Me´thode du Trou Incre´mentale,” Me´moire´ et Etudes Scientifiques, Revue de la Me´tallurgie, Feb., pp. 69–81.
5.
Lu
,
J.
, and
Flavenot
,
J. F.
,
1989
, “
Applications of the Incremental Hole-Drilling Method for Measurements of Residual Stress Distribution
,”
Exp. Tech.
,
13
, No.
11
, pp.
18
24
.
6.
Flaman
,
M. T.
, and
Manning
,
B. H.
,
1985
, “
Determination of Residual Stress Variation with Depth by Hole-drilling Method
,”
Exp. Mech.
,
25
, No.
3
, pp.
205
207
.
7.
Schajer
,
G. S.
,
1988
, “
Measurement of Non-Uniform Residual Stresses Using the Hole Drilling Method, Part I—Stresses Calculation Procedures
,”
ASME J. Eng. Mater. Technol.
,
110
, No.
4
, pp.
338
343
.
8.
Schajer
,
G. S.
,
1988
, “
Measurement of Non-Uniform Residual Stresses Using the Hole Drilling Method, Part II—Practical Applications of the Integral Method
,”
ASME J. Eng. Mater. Technol.
,
110
, No.
4
, pp.
344
349
.
9.
ASTM E837-92, 1992, Standard Test Method for Determining Residual Stresses by the Hole Drilling Strain-Gage Method, Annual Book of ASTM Standards, Section 3, 03.01, pp. 747–753, American Society for Testing and Materials, Philadelphia, PA.
10.
Antonov
,
A.
,
1983
, “
Inspecting the Level of Residual Stresses in Welded Joints by Laser Interferometry
,”
Weld Prod.,
30
, No.
9
, pp.
29
31
.
11.
Nicoletto
,
G.
,
1991
, “
Moire´ Interferometry Determination of Residual Stresses in the Presence of Gradients
,”
Exp. Mech.
,
31
, No.
3
, pp.
252
256
.
12.
Makino
,
A.
, and
Nelson
,
D.
,
1994
, “
Residual Stress Determination by Single Axis Holographic Interferometry and Hole Drilling, Part I: Theory
,”
Exp. Mech.
,
3
, pp.
66
78
.
13.
Makino
,
A.
, and
Nelson
,
D.
,
1997
, “
Determination of Sub-surface Distributions of Residual Stresses by Holographic Hole-Drilling Technique
,”
ASME J. Eng. Mater. Technol.
,
119
, No.
1
, pp.
95
103
.
14.
Nelson
,
D.
,
Fuchs
,
E.
,
Makino
,
A.
, and
Williams
,
D.
,
1994
, “
Residual Stress Determination by Single Axis Holographic Interferometry and Hole Drilling, Part II: Experiments
,”
Exp. Mech.
,
3
, pp.
79
88
.
15.
Wu
,
Z.
,
Lu
,
J.
, and
Han
,
B.
,
1998
, “
Study of Residual Stress Distribution by a Combined Method of Moire´ Interferometry and Incremental Hole-Drilling, Part I: Theory
,”
ASME J. Appl. Mech.
,
65
, No.
4
, pp.
837
843
.
16.
Wu
,
Z.
,
Lu
,
J.
, and
Han
,
B.
,
1998
, “
Study of Residual Stress Distribution by a Combined Method of Moire´ Interferometry and Incremental Hole-Drilling, Part II: Implementation
,”
ASME J. Appl. Mech.
,
65
, No.
4
, pp.
844
850
.
17.
Post, D., Han, B. and Ifju, P., 1994, High Sensitivity Moire´ (Experimental Analysis for Mechanics and Materials), Springer-Verlag.
18.
Brown, M., and Wolf, E., eds., 1985, Principles of Optics, Sixth Edition, Pergamon Press, pp. 302.
19.
Metal Improvement Company, Inc., 1981, Applications du Shot Peening.
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