Sage Journals: Discover world-class research

Abstract

In the measurement of residual stresses (RSs) via the hole-drilling method, the error induced by the eccentricity of the drilled hole is inevitable and non-negligible in some cases. In this study, both the eccentricity coordinates and RS state (two principal stresses and one principal angle) are considered unknowns that must be solved. A set of five equations is required to determine these five unknowns. Therefore, two additional measuring grids are added to the strain gauge comprising three grids, which is typically used in measuring RSs. Consequently, a novel strain gauge rosette with five measuring grids (SGR-5MG) is created. Subsequently, an algorithm associated with the SGR-5MG is developed to solve the five unknowns based on the Newton–Raphson method. The algorithm is elasticity-based and derived according to the layout of the SGR-5MG. Finally, the proposed method is verified numerically and experimentally. The results show that (1) the eccentricity error is up to 35.1% when the eccentricity reaches 0.05D, where D represents the diameter of the gauge circle; (2) Using the proposed method, the error can be significantly reduced to 7.2%; (3) The elasticity-based proposed method cannot make the predicted results exactly converge to the actual stresses in predicting high stresses because of the plasticity deformation around the hole. The eccentricity error can be reduced significantly by using the proposed method based on the SGR-5MG.

Keywords

Hole-drilling method residual stress eccentricity strain gauge rosette measuring grid

Get full access to this article

View all access options for this article.

References

Measurements Group. Measurement of residual stresses by the hole-drilling strain gage method, https://www.luchsinger.it/contents/products/tn-503-misura-delle-tensioni-residue—metodo-del-foro-cieco.pdf (2007, accessed 7 November 2023).

Schajer

GS.

Application of finite element calculations to residual stress measurements. J Eng Mater Technol 1981; 103: 157–163.

ASTM Standard E837–20. Standard test method for determining residual stresses by the hole-drilling strain-gage method. 2020.

Gere

Timoshenko

(eds). Mechanics of materials. 1st ed. New York, NY: Van Nostrand Reinhold Co., 1997.

Zhou

, et al. Numerical simulation and measurement of welding residual stresses in orthotropic steel decks stiffened with U-shaped ribs. Int J Steel Struct 2020; 20: 856–869.

Vangi

Residual stress evaluation by the hole-drilling method with off-center hole: an extension of the integral method. J Eng Mater Technol 1997; 119: 79–85.

Rendler

Vigness

Hole-drilling strain-gage method of measuring residual stresses. Exp Mech 1966; 6: 577–586.

Beghini

Bertini

Santus

, et al. Validazione sperimentale di una rosetta a 6 griglie per ridurre l’errore di eccentricità nella misura delle tensioni residue. In: Congresso AIAS XXXIX, Maratea, Italy, 2010.

Nau

Scholtes

Experimental and numerical strategies to consider hole eccentricity for residual stress measurement with the hole drilling method. Mater Test 2012; 54: 296–303.

10.

Ajovalasit

Measurement of residual stresses by the hole-drilling method: influence of hole eccentricity. J Strain Anal Eng Des 1979; 14: 171–178.

11.

Barsanescu

Carlescu

Correction of errors introduced by hole eccentricity in residual stress measurement by the hole-drilling strain-gage method. Measurement 2009; 42: 474–477.

12.

Beghini

Bertini

Mori

. Evaluating non-uniform residual stress by the hole-drilling method with concentric and eccentric holes. Part I. Definition and validation of the influence functions. Strain 2010; 46(4): 324–336.

13.

Beghini

Bertini

Mori

LF.

Evaluating non-uniform residual stress by the hole-drilling method with concentric and eccentric holes. Part II: application of the influence functions to the inverse problem. Strain 2010; 46(4): 337–346.

14.

Barsanti

Beghini

Bertini

, et al. First-order correction to counter the effect of eccentricity on the hole-drilling integral method with strain-gage rosettes. J Strain Anal Eng Des 2016; 51(6): 431–443.

15.

Valentini

Bertelli

Benincasa

, et al. Recent advancements in the hole-drilling strain-gage method for determining residual stresses. In: Casavola

Barile

Moramarco

, et al. (eds) New challenges in residual stress measurements and evaluation. London: IntechOpen, 2019, pp.9–15.

16.

Soete

Vancrombrugge

An industrial method for the determination of residual stresses. Proc Soc Exp Appl Stress Anal 1950; 8(1): 17–28.

17.

Boiten

Ten Cate

A routine method for the measurement of residual stresses in plates. Appl Sci Res 1952; 3: 317–343.

18.

Timoshenko

Goodier

(eds). Theory of elasticity. 3rd ed. Beijing: Tsinghua University Press, 2007.

19.

Nobre

Kornmeier

Scholtes

Plasticity effects in the hole-drilling residual stress measurement in peened surfaces. Exp Mech 2018; 58: 369–380.

20.

Beghini

Bertini

Raffaelli

Numerical analysis of plasticity effects in the hole-drilling residual stress measurement. J Test Eval 1994; 22(6): 522–529.

21.

Tellini

Vangi

Hole–drilling strain-gauge method: residual stress measurement with plasticity effects. J Eng Mater Technol 2010; 132: 323–328.

22.

Chinese National Standard GB/T 700-2006. Carbon structural steels. 2006.

23.

Beghini

Bertini

Raffaelli

An account of plasticity in the hole-drilling method of residual stress measurement. J Strain Anal Eng Des 1995; 30: 227–233.

24.

Chinese National Standard GB/T 31310-2014. Metallic material—determination of residual stress—hole drilling strain gauge method. 2014.

Eliminating eccentricity error in measuring residual stresses via hole-drilling method using strain gauge rosette with five measuring grids: For thin plates using through-holes

Abstract

Keywords

Get full access to this article

References