Autofrettage Analysis of Thick-Walled Cylinder Based on Tensile-Compressive Curve of Material

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Periodical:

Key Engineering Materials (Volumes 274-276)

Edited by:

W.P. Shen and J.Q. Xu

Pages:

1035-1040

Citation:

X. P. Huang and W. Cui, "Autofrettage Analysis of Thick-Walled Cylinder Based on Tensile-Compressive Curve of Material ", Key Engineering Materials, Vols. 274-276, pp. 1035-1040, 2004

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October 2004

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[1] A. Stacey, G.A. Webster: Determination of residual stress distributions in autofrettaged tubing. Int. J. Pres. Ves. & Piping Vol. 31(1988), pp.205-220.

DOI: https://doi.org/10.1016/0308-0161(88)90003-8

[2] P.C.T. Chen: Generalized plane-strain problems in an elastic-plastic thick-walled cylinder. Trans. 26 th conference of army mathematicians, 1980, pp.265-275.

[3] R.V. Milligan, W.H. Koo and T.E. Davidson: The Bauschinger effect on a high-strength steel. Journal of Basic Engineering, Vol. 88, (1966), pp.480-488.

DOI: https://doi.org/10.1115/1.3645883

[4] P.C.T. Chen: The bauschinger and hardening effects on residual stresses in an autofrettaged thick-walled cylinder. Trans. of ASME, Vol. 125(2), (1986), pp.174-182.

[5] Q.L. Xue: The theory of autofrettaged in thick-walled and it's experiments study. China pressure vessel technology, Vol. 18(3), (2001), pp.1-6(in Chinese).

[6] Y.H. Zhang, X.P. Huang, B.Z. Pan: Fracture and fatigue control design in pressure vessels. Press of petroleum industry in 1997(in Chinese).

[7] H. J Su, X.P. Huang: Autofrettage technology research (II). Journal of Daqing petroleum institute, Vol. 19(2), (1995), pp.78-82(in Chinese).

[8] X.P. Huang, W.C. Cui: A general autofrettage model of thick-walled cylinder based on tensile-compressive curve of material. Submitted to Int. J. of pressure vessel and piping.

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