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Surface Treatments

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References

  1. Metals Handbook, 9th ed., Vol. 16: Machining, ASM International (1989), and Vol. 5: Surface cleaning, finishing and coating. American Society for Metals (1982).

    Google Scholar 

  2. Van Wiggen, P.C., Rozendaal, H.C.F. and Mittemeijer, E.J., The nitriding behaviour of iron-chromium-carbon alloys. J. of Materials Science, Vol.20 (1985) pp.4561–4582.

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  3. Overbeeke, J.L. and van Lipzig, H.T.M., Nitriding against fatigue. Fatigue 2000 (M.R. Backe et al., Eds), EMAS, Warley (2000), pp.483–494.

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  4. Franz, H.E., X-ray measurements of residual stresses after surface machining of TiAl6V4 and TiAl6V6Sn2 (in German). Verein Deutscher Ingenieure, Düsseldorf, VDI Berichte 313 (1978) pp.453–462.

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  5. Suhr, R.W., The effect of surface finish on high cycle fatigue initiation in low alloy steel. The Behaviour of Short Fatigue Cracks (K.J. Miller and E.R. de los Rios, Eds.). EGF Publication 1, Mechanical Engineering Publications, London (1986) pp.69–86.

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  6. Boswell Jr, C.C. and Wagner, R.A., Fatigue in rotary-wing aircraft. Metal Fatigue (Sines, G. and Waisman, J.L., Eds.). McGraw Hill (1959) pp.355–375.

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  7. Investigation of the National Aerospace Laboratory NLR, Amsterdam (unpublished).

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  8. Kloos, K.H., Fuchsbauer, B. and Adelmann, J., Fatigue properties of specimens similar to components deep rolled under optimized conditions. Int. Journal of Fatigue, Vol. 9 (1987) pp.35–42.

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  9. Schütz, W., Fatigue life improvement of high-strength materials by shot peening. First International Conference on Shot Peening. Pergamon Press (1981) pp.423–433.

    Google Scholar 

Some general references (see also [1])

  1. Rice, C.R. (Ed.), SAE Fatigue Design Handbook. 3rd ed. AE-22, Society of Automotive Engineers, Warrendale (1997).

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  2. Zahavi, E. and Torbilo, V., Fatigue design. Life expectancy of machine parts. CRC Press (1996).

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  3. Leis, B., Effect of surface condition and processing on fatigue performance. Fatigue and Fracture, American Society for Materials, Handbook Vol. 19, ASM (1996), pp.314–320.

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  4. Harris, J.W. and Syers, G., Fatigue evaluation. Engineering design guides 32, Oxford University Press (1979).

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  5. Frost, N.E., Marsh, KJ. and Pook, L.P., Metal Fatigue. Clarendon, Oxford (1974).

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  6. Forrest, P.G., Fatigue of Metals. Pergamon Press, Oxford (1962).

    Google Scholar 

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© 2004 Kluwer Academic Publishers

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(2004). Surface Treatments. In: Fatigue of Structures and Materials. Springer, Dordrecht. https://doi.org/10.1007/0-306-48396-3_14

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  • DOI: https://doi.org/10.1007/0-306-48396-3_14

  • Publisher Name: Springer, Dordrecht

  • Print ISBN: 978-0-7923-7013-0

  • Online ISBN: 978-0-306-48396-7

  • eBook Packages: Springer Book Archive

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