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Tribology Letters

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01.04.2014 | Original Paper

On the Determination of Biaxial Residual Stress Fields from Global Indentation Quantities

verfasst von: Per-Lennart Larsson

Erschienen in: Tribology Letters | Ausgabe 1/2014

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Abstract

In the present study, quantitative relations for the determination of surface residual stresses, using sharp indentation testing, are presented. The relations are based on previous results for equi-biaxial residual fields but further developed to apply also for a general situation. The present analysis relies on theoretical methods, but the results are validated using previous experimental and numerical findings. Cone indentation of classical Mises elastoplastic material behavior is assumed throughout the investigation for clarity but not out of necessity. Further development for a complete characterization of a general residual stress field is discussed in some detail.

Vorheriger Artikel Experimental Study on Lubrication Film Thickness Under Different Interface Wettabilities

Nächster Artikel On the Fractal Dimension of Rough Surfaces

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Marshall, D.B., Lawn, B.R.: Indentation of brittle materials. ASTM Spec. Tech. Publ. 889, 26–46 (1985)

Hehn, L., Zheng, C., Mecholsky, J.J., Hubbard, C.R.: Measurements of residual-stresses in Al2O3/Ni laminated composites using an X-ray-diffraction technique. J. Mater. Sci. 30, 1277–1282 (1995)CrossRef

Rendler, N.J., Vigness, I.: Hole-drilling strain-gauge method of measuring residual stresses. Exp. Mech. 13, 45–48 (1973)CrossRef

Flavenot, J.F., Nikulari, A.: Measures des constraints residual’s, method de la fleche. Mem. Techn. du Cetim. 31, 6–42 (1977)

Pethica, J.B., Hutchings, R., Oliver, W.C.: Hardness measurements at penetration depths as small as 20 nm. Phil. Mag. A48, 593–606 (1983)CrossRef

Kokubo, S.: On the change in hardness of a plate caused by bending. Sci. Rep. Tohuko. Imp. Univ. Ser. 1(21), 256–267 (1932)

Sines, G., Carlson, R.: Hardness measurements for determination of residual stresses. ASTM Bull 180, 357 (1952)

Doerner, M.F., Gardner, D.S., Nix, W.D.: Plastic properties of thin films on substrates as measured by submicron indentation hardness and substrate curvature techniques. J. Mater. Res. 1, 845–851 (1986)CrossRef

LaFontaine, W.R., Yost, B., Li, C.Y.: Effect of residual stress and adhesion on the hardness of copper films deposited on silicon. J. Mater. Res. 5, 776–783 (1990)CrossRef

10.

LaFontaine, W.R., Paszkiet, C.A., Korhonen, M.A., Li, C.Y.: Residual stress measurements of thin aluminum metallizations by continuous indentation and X-ray stress measurement techniques. J. Mater. Res. 6, 2084–2090 (1991)CrossRef

11.

Tsui, T.Y., Oliver, W.C., Pharr, G.M.: Influences of stress on the measurement of mechanical properties using nanoindentation. Part I. Experimental studies in an aluminum alloy. J. Mater. Res. 11, 752–759 (1996)CrossRef

12.

Bolshakov, A., Oliver, W.C., Pharr, G.M.: Influences of stress on the measurement of mechanical properties using nanoindentation. Part II. Finite element simulations. J. Mater. Res. 11, 760–768 (1996)CrossRef

13.

Suresh, S., Giannakopoulos, A.E.: A new method for estimating residual stresses by instrumented sharp indentation. Acta Mater. 46, 5755–5767 (1998)CrossRef

14.

Carlsson, S., Larsson, P.L.: On the determination of residual stress and strain fields by sharp indentation testing. Part I. Theoretical and numerical analysis. Acta Mater. 49, 2179–2191 (2001)CrossRef

15.

Carlsson, S., Larsson, P.L.: On the determination of residual stress and strain fields by sharp indentation testing. Part II. Experimental investigation. Acta Mater. 49, 2193–2203 (2001)CrossRef

16.

Lee, Y.H., Kwon, D.: Measurement of residual-stress effect by nanoindentation on elastically strained (100) W. Scripta Mater. 49, 459–465 (2003)CrossRef

17.

Lee, Y.H., Kwon, D.: Stress measurement of SS400 steel beam using the continuous indentation technique. Exp. Mech. 44, 55–61 (2004)CrossRef

18.

Lee, Y.H., Kwon, D.: Estimation of biaxial surface stress by instrumented indentation with sharp indenters. Acta Mater. 52, 1555–1563 (2004)CrossRef

19.

Bocciarelli, M., Maier, G.: Indentation and imprint mapping method for identification of residual stresses. Comput. Mater. Sci. 39, 381–392 (2007)CrossRef

20.

Rydin, A., Larsson, P.L.: On the correlation between residual stresses and global indentation quantities: equi-biaxial stress field. Tribol. Lett. 47, 31–42 (2012)CrossRef

21.

Huber, N., Heerens, J.: On the effect of a general residual stress state on indentation and hardness testing. Acta Mater. 56, 6205–6213 (2008)CrossRef

22.

Heerens, J., Mubarok, F., Huber, N.: Influence of specimen preparation, microstructure anisotropy, and residual stresses on stress-strain curves of rolled Al2024 T351 as derived from spherical indentation tests. J. Mater. Res. 24, 907–917 (2009)CrossRef

23.

Swadener, J.G., Taljat, B., Pharr, G.M.: Measurement of residual stress by load and depth sensing indentation with spherical indenters. J. Mater. Res. 16, 2091–2102 (2001)CrossRef

24.

Larsson, P.L.: On the mechanical behavior at sharp indentation of materials with compressive residual stresses. Mater. Des. 32, 1427–1434 (2011)CrossRef

25.

Johnson, K.L.: The correlation of indentation experiments. J. Mech. Phys. Solids 18, 115–126 (1970)CrossRef

26.

Johnson, K.L.: Contact Mechanics. Cambridge University Press, Cambridge (1985)CrossRef

27.

Bhattacharya, A.K., Nix, W.D.: Finite-element simulation of indentation experiments. Int. J. Solids Struct. 24, 881–891 (1988)CrossRef

28.

Laursen, T.A., Simo, J.C.: A study of the mechanics of microindentation using finite-elements. J. Mater. Res. 7, 618–626 (1992)CrossRef

29.

Giannakopoulos, A.E., Larsson, P.L., Vestergaard, R.: Analysis of Vickers indentation. Int. J. Solids Struct. 31, 2679–2708 (1994)CrossRef

30.

Larsson, P.L., Söderlund, E., Giannakopoulos, A.E., Rowcliffe, D.J., Vestergaard, R.: Analysis of Berkovich indentation. Int. J. Solids Str. 33, 221–248 (1996)CrossRef

31.

Larsson, P.L., Blanchard, P.: On the correlation between residual stresses and global indentation quantities: numerical results for general biaxial stress fields. Mater. Des. 37, 435–442 (2012)CrossRef

32.

Larsson, P.L., Blanchard, P.: On the invariance of hardness at sharp indention of materials with general biaxial residual stress fields. Mater. Des. 52, 602–608 (2013)CrossRef

33.

Larsson, P.L.: Modelling of sharp indentation experiments: some fundamental issues. Phil. Mag. 86, 5155–5177 (2006)CrossRef

34.

Bucaille, J.L., Felder, E., Hochstetter, G.: Mechanical analysis of the scratch test on elastic and perfectly plastic materials with three-dimensional finite element modeling. Wear 249, 422–432 (2001)CrossRef

35.

Holmberg, K., Laukkanen, A., Ronkainen, H., Wallin, K., Varjus, S.: A model for stresses, crack generation and fracture toughness calculation in scratched TiN-coated steel surfaces. Wear 254, 278–291 (2003)CrossRef

36.

Bucaille, J.L., Felder, E., Hochstetter, G.: Experimental and three-dimensional finite element study of scratch test of polymers at large deformation. J. Tribol. 126, 372–379 (2004)CrossRef

37.

Wredenberg, F., Larsson, P.L.: On the numerics and correlation of scratch testing. J. Mech. Mater. Str. 2, 573–594 (2007)CrossRef

38.

Bellemare, S.C., Dao, M., Suresh, S.: Effects of mechanical properties and surface friction on elasto-plastic sliding contact. Mech. Mater. 40, 206–219 (2008)CrossRef

39.

Wredenberg, F., Larsson, P.L.: Scratch testing of metals and polymers: experiments and numerics. Wear 266, 76–83 (2009)CrossRef

Titel: On the Determination of Biaxial Residual Stress Fields from Global Indentation Quantities
verfasst von: Per-Lennart Larsson
Publikationsdatum: 01.04.2014
Verlag: Springer US
Erschienen in: Tribology Letters / Ausgabe 1/2014
Print ISSN: 1023-8883
Elektronische ISSN: 1573-2711
DOI: https://doi.org/10.1007/s11249-014-0312-5

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