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Experimental Mechanics

Erschienen in:

01.02.2010

Advances in Hole-Drilling Residual Stress Measurements

verfasst von: G. S. Schajer

Erschienen in: Experimental Mechanics | Ausgabe 2/2010

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Abstract

Residual stress measurements by hole-drilling have developed greatly in both sophistication and scope since the pioneering work of Mathar in the 1930s. Advances have been made in measurement technology to give measured data superior in both quality and quantity, and in analytical capability to give detailed residual stress results from those data. On the technology side, the use of multiple strain gauges, Moiré, Holographic Interferometry and Digital Image Correlation all provide prolific sources of high quality data. In addition, modern analytical techniques using inverse methods provide effective ways of extracting reliable residual stress results from the mass of available data. This paper describes recent advances in both the measurement and analytical areas, and indicates some promising directions for future developments.

Vorheriger Artikel Residual Stress Determination by Hole Drilling Combined with Optical Methods

Nächster Artikel Residual Stress Determination Using Cross-Slitting and Dual-Axis ESPI

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Mathar J (1934) Determination of initial stresses by measuring the deformation around drilled holes. Transactions ASME 56(4):249–254MathSciNet

Soete W, Vancrombrugge R (1950) An industrial method for the determination of residual stresses. Proc SESA 8(1):17–28

Rendler NJ, Vigness I (1966) Hole-drilling Strain-gage Method of Measuring Residual Stresses. Exp Mech 6(12):577–586 doi:10.1007/BF02326825 CrossRef

ASTM (2008) Determining residual stresses by the hole-drilling strain-gage method. ASTM Standard Test Method E837–08. American Society for Testing and Materials, West Conshohocken

Grant PV, Lord JD, Whitehead PS (2002) The measurement of residual stresses by the incremental hole drilling technique. Measurement Good Practice Guide No.53. National Physical Laboratory, Teddington

Schajer GS (1996) Hole-drilling and ring core methods. In: Lu J (ed) Chapter 2 in “Handbook of Measurement of Residual Stresses”. Lilburn, GA, Fairmont Press, pp 5–20

Milbradt KP (1951) Ring method determination of residual stresses.. Proc SESA 9(1):63–74

Keil S (1992) Experimental determination of residual stresses with the ring core method and an on-line measuring system. Exp Tech 16(5):17–24MathSciNet

Vishay Measurements Group (1993) Measurement of residual stresses by the hole-drilling strain-gage method. Tech Note TN-503–6. Vishay Measurements Group, Raleigh, p 16

10.

Ajovalasit A, Petrucci G, Zuccarello B (1996) Determination of non-uniform residual stresses using the ringcore method. J Eng Mater Technol 118(1):1–5 doi:10.1115/1.2805929 CrossRef

11.

Cordiano HV, Salerno VL (1969) Study of residual stresses in linearly varying biaxial-stress fields. Exp Mech 9(1):17–24 doi:10.1007/BF02327873 CrossRef

12.

Riparbelli C (1950) A method for the determination of initial stresses. Proc SESA 8(1):173–196

13.

Schajer GS, Tootoonian M (1997) A new rosette design for more reliable hole-drilling residual stress measurements. Exp Mech 37(3):299–306 doi:10.1007/BF02317422 CrossRef

14.

Beghini M, Bertini L, Raffaelli P (1994) Numerical Analysis of Plasticity Effect in the Hole-Drilling Residual Stress Measurement. J Test Eval 22(6):522–529CrossRef

15.

Lu J, Flavenot JF (1989) Application of the incremental hole-drilling method for measurement of residual-stress distribution. Exp Tech 13(11):18–24 doi:10.1111/j.1747-1567.1989.tb01435.x CrossRef

16.

Sharpe WN (1968) The interferometric strain gage. Exp Mech 8(2):164–170 doi:10.1007/BF02326343 CrossRef

17.

Sharpe WN, Wang KC (1988) Small attachable interferometric strain gages. Exp Mech 28(2):136–141 doi:10.1007/BF02317563 CrossRef

18.

Li K (1996) The interferometric strain rosette technique. Exp Mech 36(3):199–203 doi:10.1007/BF02318007 CrossRef

19.

Li K (1997) Application of interferometric strain rosette to residual stress measurements. Opt Lasers Eng 27:125–136 doi:10.1016/S0143-8166(95)00014-3 MATHCrossRef

20.

Tjhung T, Li K (2003) Measurement of in-plane residual stresses varying with depth by the interferometric strain/slope rosette and incremental hole-drilling. J Eng Mater Technol 125(2):153–162 doi:10.1115/1.1555654 CrossRef

21.

Schajer GS (1991) Strain data averaging for the hole-drilling method. Exp Tech 15(2):25–28 doi:10.1111/j.1747-1567.1991.tb01158.x CrossRef

22.

Oettel R (2000) The determination of uncertainties in residual stress measurement (using the Hole Drilling Technique). Code of Practice 15, Issue 1, EU Project No. SMT4-CT97–2165, Sept

23.

Kelsey RA (1956) Measuring non-uniform residual stresses by the hole drilling method. Proc SESA 14(1):181–194

24.

Nickola WE (1986) Practical subsurface residual stress evaluation by the hole-drilling method. Proceedings of the Spring Conference on Experimental Mechanics, New Orleans, June 8–13, pp.47–58. Society for Experimental Mechanics

25.

Schajer GS (1981) Application of finite element calculations to residual stress measurements. J Eng Mater Technol 103(2):157–163CrossRef

26.

Bijak-Zochowski M (1978) A semidestructive method of measuring residual stresses. VDI-Ber 313:469–476

27.

Schajer GS (1988) Measurement of non-uniform residual stresses using the hole-drilling method. J Eng Mater Technol 110(4):338–349CrossRef

28.

Schajer GS (1993) Use of displacement data to calculate strain gauge response in non-uniform strain fields. Strain 29(1):9–13 doi:10.1111/j.1475-1305.1993.tb00820.x CrossRef

29.

Post D, Han B, Ifju P (1994) High sensitivity Moiré. Springer, New York

30.

Han B, Post D, Ifju P (2001) Moiré interferometry for engineering mechanics: current practices and future developments. J Strain Anal 36(1):101–117 doi:10.1243/0309324011512568 CrossRef

31.

McDonach A, McKelvie J, MacKenzie P, Walker CA (1983) Improved Moiré interferometry and applications in fracture mechanics, residual stress and damaged composites. Exp Tech 7(6):20–24 doi:10.1111/j.1747-1567.1983.tb01766.x CrossRef

32.

Nicoletto G (1991) Moiré interferometry determination of residual stresses in the presence of gradients. Exp Mech 31(3):252–256 doi:10.1007/BF02326068 CrossRef

33.

Wu Z, Lu J, Han B (1998) Study of residual stress distribution by a combined method of Moiré interferometry and incremental hole drilling. J Appl Mech 65(4):837–850CrossRef

34.

Schwarz RC, Kutt LM, Papazian JM (2000) Measurement of residual stress using interferometric Moiré: a new insight. Exp Mech 40(3):271–281 doi:10.1007/BF02327500 CrossRef

35.

Ya M, Miao H, Zhang X, Lu J (2006) Determination of residual stress by use of phase shifting moiré interferometry and hole-drilling method. Opt Lasers Eng 44(1):68–79 doi:10.1016/j.optlaseng.2005.02.006 CrossRef

36.

Sirohi RS (1993) Speckle metrology. Marcel Dekker, New York

37.

Ghiglia DC, Pritt MD (1998) Two-dimensional phase unwrapping. Wiley, New YorkMATH

38.

Jones R, Wykes C (1989) Holographic and speckle interferometry 2nd edn. Cambridge University Press, Cambridge

39.

Cloud GL (1995) Optical methods of engineering analysis. Cambridge University Press, CambridgeCrossRef

40.

Antonov AA (1983) Inspecting the level of residual stress in welded joints by laser interferometry. Weld Prod 30(9):13–41

41.

Schmitt DR, Li Y (1996) Three-dimensional stress relief displacement resulting from drilling a blind hole in acrylic. Exp Mech 36(4):412–420 doi:10.1007/BF02328586 CrossRef

42.

Lin ST, Hsieh CT, Hu CP (1994) Two holographic blind-hole methods for measuring residual stresses. Exp Mech 34(2):141–147 doi:10.1007/BF02325710 CrossRef

43.

Pisarev VS, Bondarenko MM, Chernov AV, Vinogradova AN (2005) General approach to residual stresses determination in thin-walled structures by combining the hole drilling method and reflection hologram interferometry. Int J Mech Sci 47:1350–1376 doi:10.1016/j.ijmecsci.2005.05.002 CrossRef

44.

Nelson DV, McCrickerd JT (1986) Residual-stress determination through combined use of holographic interferometry and blind-hole drilling. Exp Mech 26(4):371–378 doi:10.1007/BF02320153 CrossRef

45.

Makino A, Nelson D (1994) Residual stress determination by single-axis holographic interferometry and hole drilling. Part I: Theory. Exp Mech 34(1):66–78 doi:10.1007/BF02328443 CrossRef

46.

Nelson D, Fuchs E, Makino A, Williams D (1994) Residual stress determination by single-axis holographic interferometry and hole drilling. Part II: Experiments. Exp Mech 34(1):79–88 doi:10.1007/BF02328444 CrossRef

47.

Zhang J (1998) Two-dimensional in-plane electronic speckle pattern interferometer and its application to residual stress determination. Opt Eng 37(8):2402–2409 doi:10.1117/1.602007 CrossRef

48.

Focht G, Schiffner K (2003) Determination of residual stresses by an optical correlative hole drilling method. Exp Mech 43(1):97–104 doi:10.1007/BF02410490 CrossRef

49.

Furgiuele FM, Pagnotta L, Poggialini A (1991) Measuring residual stresses by hole-drilling and coherent optics techniques: a numerical calibration. J Eng Mater Technol 113(1):41–50 doi:10.1115/1.2903381 CrossRef

50.

Steinzig M, Ponslet E (2003) Residual stress measurement using the hole drilling method and laser speckle interferometry: Part I. Exp Tech 27(3):43–46 doi:10.1111/j.1747-1567.2003.tb00114.x CrossRef

51.

Díaz FV, Kaufmann GH, Möller O (2001) Residual stress determination using blind-hole drilling and digital speckle pattern interferometry with automated data processing. Exp Mech 41(4):319–323 doi:10.1007/BF02323925 CrossRef

52.

Suterio R, Albertazzi A, Amaral FK (2006) Residual stress measurement using indentation and a radial electronic speckle pattern interferometer—recent progress. J Strain Anal 41(7):517–524 doi:10.1243/03093247JSA173 CrossRef

53.

Hung Y (1982) Shearography: A new optical method for strain measurement and nondestructive testing. Opt Eng 21(3):391–395MathSciNet

54.

Steinchen W, Yang L (2003) Digital shearography: Theory and application of digital speckle pattern shearing interferometry. SPIE Press, Bellingham

55.

Zhang H, Ke J (1986) Determination of residual stresses using laser speckle shearing interferometry and the hole drilling method. Exp Mech 1(3):181–188

56.

Wu SY, Qin YW (1995) Determination of residual stresses using large shearing speckle interferometry and the hole drilling method. Opt Lasers Eng 23:233–244 doi:10.1016/0143-8166(94)00052-C CrossRef

57.

Hung MYY, Long KW, Wang JQ (1997) Measurement of residual stress by phase shift shearography. Opt Lasers Eng 27:61–73 doi:10.1016/S0143-8166(95)00013-5 CrossRef

58.

Peters WH, Ranson WF (1982) Digital imaging techniques in experimental stress analysis. Opt Eng 21(3):427–432

59.

Chu TC, Ranson WF, Sutton MA, Peters WH (1985) Applications of digital-image-correlation techniques to experimental mechanics. Exp Mech 25(3):232–244 doi:10.1007/BF02325092 CrossRef

60.

Sutton MA, McNeill SR, Helm JD, Chao YJ (2000) Advances in two-dimensional and three-dimensional computer vision. In: Rastogi PK (ed) Chapter 10 in “Photomechanics”. Springer, Heidelberg

61.

McGinnis MJ, Pessiki S, Turker H (2005) Application of three-dimensional digital image correlation to the core-drilling method. Exp Mech 45(4):359–367 doi:10.1007/BF02428166 CrossRef

62.

Nelson DV, Makino A, Schmidt T (2006) Residual stress determination using hole drilling and 3d image correlation. Exp Mech 46(1):31–38 doi:10.1007/s11340-006-5859-0 CrossRef

63.

Schajer GS (2001) Residual stresses: measurement by destructive methods. In: Buschow KHJ et al (ed) Section 5a in “Encyclopedia of Materials: Science and Technology”. Elsevier, Oxford

64.

Schmitt DR, Hunt RW (2000) Inversion of speckle interferometer fringes for hole drilling residual stress determinations. Exp Mech 40(2):1–9 doi:10.1007/BF02325038 CrossRef

65.

Ponslet E, Steinzig M (2003) Residual stress measurement using the hole drilling method and laser speckle interferometry: Part II. Exp Tech 27(4):17–21 doi:10.1111/j.1747-1567.2003.tb00117.x CrossRef

66.

Baldi A (2005) A new analytical approach for hole drilling residual stress analysis by full field method. J Eng Mater Technol 127(2):165–169 doi:10.1115/1.1839211 CrossRef

67.

Schajer GS, Steinzig M (2005) Full-field calculation of hole-drilling residual stresses from ESPI data. Exp Mech 45(6):526–532 doi:10.1007/BF02427906 CrossRef

68.

Parker RL (1994) Geophysical inverse theory. Princeton University Press, New JerseyMATH

69.

Tikhonov A, Goncharsky A, Stepanov V, Yagola A (1995) Numerical methods for the solution of Ill-posed problems. Kluwer, DordrechtMATH

70.

Schajer GS, Prime MB (2006) Use of inverse solutions for residual stress measurements. ASME Journal of Engineering Materials and Technology 128(3):375–382 doi:10.1115/1.2204952 CrossRef

71.

Schajer GS (2007) Hole-drilling residual stress profiling with automated smoothing. J Eng Mater Technol 129(3):440–445 doi:10.1115/1.2744416 CrossRef

72.

Prime MB (1999) Residual stress measurement by successive extension of a slot: The crack compliance method. Appl Mech Rev 52(2):75–96CrossRef

73.

Vangi D (1994) Data management for the evaluation of residual stresses by the incremental hole-drilling method. J Eng Mater Technol 116(4):561–566 doi:10.1115/1.2904329 CrossRef

74.

Zuccarello B (1999) Optimal calculation steps for the evaluation of residual stress by the incremental hole-drilling method. Exp Mech 39(2):117–124 doi:10.1007/BF02331114 CrossRef

75.

Beghini M, Bertini L (1998) Recent advances in the hole drilling method for residual stress measurement. J Mater Eng Perform 7(2):163–172CrossRef

76.

Vangi D, Ermini M (2000) Plasticity effects on residual stress measurements by the hole drilling method. Strain 36(2):55–59 doi:10.1111/j.1475-1305.2000.tb01174.x CrossRef

Titel: Advances in Hole-Drilling Residual Stress Measurements
verfasst von: G. S. Schajer
Publikationsdatum: 01.02.2010
Verlag: Springer US
Erschienen in: Experimental Mechanics / Ausgabe 2/2010
Print ISSN: 0014-4851
Elektronische ISSN: 1741-2765
DOI: https://doi.org/10.1007/s11340-009-9228-7

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