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Residual Stress Measurement of an Interference Fit Specimen Based on Moiré Interferometry and Hole-Drilling Method
Optics
Volume 4, Issue 3-1, June 2015, Pages: 1-4
Received: Feb. 16, 2015; Accepted: Mar. 23, 2015; Published: May 12, 2015
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Authors
Baoge Zhang, Faculty of Civil Engineering and Mechanics, Jiangsu University, Zhenjiang, China
Jianguo Zhu, Faculty of Civil Engineering and Mechanics, Jiangsu University, Zhenjiang, China
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Abstract
In this paper, moiré interferometry is combined with hole-drilling method to measure the residual stress of an interference fit specimen. And, finite element method is used to calibrate the coefficient of hole-drilling method. The experimental results are consistent with theoretical results, which manifests that moiré interferometry combined with hole-drilling method are reliable and effective for residual stress measurement.
Keywords
Moiré Interferometry, Hole-Drilling Method, Interference Fit, Residual Stress
To cite this article
Baoge Zhang, Jianguo Zhu, Residual Stress Measurement of an Interference Fit Specimen Based on Moiré Interferometry and Hole-Drilling Method, Optics. Special Issue: Optical Techniques for Deformation, Structure and Shape Evaluation. Vol. 4, No. 3-1, 2015, pp. 1-4. doi: 10.11648/j.optics.s.2015040301.11
References
[1]
A. S. Franchim, V.S. de Camposa, D. N. Travessa, and C.D. Moura Neto, "Analytical modelling for residual stresses produced by shot peening". MATER DESIGN, 2009. 30(5): p. 1556-1560
[2]
S.M.H Gangaraj, M. Guagliano, and G.H. Farrahi, "An approach to relate shot peening finite element simulation to the actual coverage". SURF COAT TECH, 2014. 243: p. 39-45.
[3]
T.Hong, J.Y. Ooi, and B. Shaw, "A numerical simulation to relate the shot peening parameters to the induced residual stresses". ENG FAIL ANAL, 2008. 15(8): p. 1097-1110.
[4]
P.J. Withers and H. Bhadeshia, "Overview - Residual stress part 1 - Measurement techniques". MATER SCI TECH-LOND, 2001. 17(4): p. 355-365.
[5]
B. Zuccarello and G. Di Franco, "Numerical-experimental Method for the Analysis of Residual Stresses in Cold-expanded Holes". EXP MECH, 2013. 53(4): p. 673-686.
[6]
M. Frija, T. Hassine, R. Fathallah, C. Bouraoui, and A. Dogui,"Finite element modelling of shot peening process: Prediction of the compressive residual stresses, the plastic deformations and the surface integrity". MAT SCI ENG A-STRUCT, 2006. 426(1-2): p. 173-180.
[7]
N.S. Rossini, M. Dassisti, K.Y. Benyounis, and A.G. Olabi, "Methods of measuring residual stresses in components". MATER DESIGN, 2012. 35: p. 572-588.
[8]
P.J. Withers, "Residual stress and its role in failure". REP PROG PHYS, 2007. 70(12): p. 2211-2264
[9]
H. Schmidt and J. Hattel, "A local model for the thermomechanical conditions in friction stir welding". MODEL SIMUL MATER SC, 2005. 13(1): p. 77-93.
[10]
H.M. Xie, B. Li, R. Geer, B. Xu, and J. Castracane, "Focused ion beam Moire method". OPT LASER ENG, 2003. 40(3): p. 163-177.
[11]
T. Kim, H. Lee, M. Kim, and S. Jung," A 3D FE model for evaluation of peening residual stress under angled multi-shot impacts". SURF COAT TECH, 2012. 206(19-20): p. 3981-3988
[12]
F. Yang, Z. Chen, and S.A. Meguid, "3D FE modeling of oblique shot peening using a new periodic cell". INT J MECH MATER DES, 2014. 10(2): p. 133-144
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