Abstract
A detailed analysis of martensite transformations in 18/8 (304) stainless steel, utilizing transmission electron microscopy and diffraction in conjunction with X-ray and magnetization techniques, has established that the sequence of transformation is γ → ∈ → α. ε is a thermodynamically stable hcp phase whose formation is greatly enhanced as a result of plastic deformation. Comparison with the ε → α transformation in pure Fe-Mn alloys lends further support to the above sequence and suggests that a transformation line between ε and α in Fe-Cr-Ni alloys can be expected. In the 304 stainless steel used in this investigation, formation of α was induced only by plastic deformation and subsequent to formation of ε. Nucleation of α occurs heterogeneously at intersections of ε bands or where ε bands abut twin or grain boundaries (which represent unilaterally compressed regions). From electron diffraction, the Nishiyama relationship between γ and α phases appears to predominate at the start of the transformation, but then changes to that of Kurdjumov-Sachs. Based on these observations, a sequence of atom movements from the hcp structure to the bcc structure is proposed which has the basic geometric features of the martensitic transformation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
C. M. Wayman:Advan. in Mater. Res. 1968, vol. 3, p. 147.
B. Cina:Acta Met., 1958, vol. 6, p. 748.
B. Cina:J. Iron SteelInst., 1954, vol. 177, p. 406.
R. P. Reed:Acta Met., 1962, vol. 10, p. 865.
J. F. Breedis and W. D. Robertson:Acta Met., 1962, vol. 10, p. 1077.
R. P. Reed and C. J. Guntner:Trans. TMS-AIME, 1964, vol. 230, p. 1713.
R. Lagneborg:Acta Met., 1964, vol. 12, p. 823.
J. A. Venables:Phil. Mag., 1962, vol. 7, p. 35.
J.Dash and H.M.Otte:Acta Met., 1963, vol. 11, p. 1169.
H. M. Otte and J. Dash:Electron Microscopy, Vol. A, 1964, Proc. Third European Regional Conf., Prague, 1964.
J. F. Breedis:Trans. TMS-AIME, 1964, vol. 230, p. 1583.
P. M. Kelly and J. Nutting:J. Iron Steel Inst., 1961, vol. 197, p. 199.
P. M. Kelly:Acta Met., 1965, vol. 13, p. 635.
A. J. Goldman, W. D. Robertson, and D. A. Koss:Trans. TMS-AIME, 1964, vol. vol. 230, p. 240.
C. J. Guntner and R. P. Reed:Trans. ASM, 1962, vol 55, p. 399.
P. L. Mangonon, Jr.: Ph.D. Thesis, UCRL Report 18230, Lawrence Radiation Laboratory, University of California, Berkeley, Calif.
P. L. Mangonon, Jr. and G. Thomas:Met. Trans., 1970, vol. 1, p. 1587.
G. Thomas, W. Bell, and H. M. Otte:Phys. Stat. Sol., 1965, vol. 12, p. 353.
J. A. Hren and G. Thomas:Trans. TMS-AIME, 1963, vol. 227, p. 308.
A. Seeger:Z. Metallic., 1956, vol. 47, p. 653, 1953, vol. 44, p. 247.
W. Bollman:Acta Met., 1961, vol. 9, p. 972.
L. Kaufmann: Iron and Steel Inst. Special Report 93, London, 1965, p. 48.
H. Schumann:Arch. Eisenhuettenw,, 1967, vol. 38, p. 647.
K. H. G. Ashbee:Acta Met., 1967, vol. 15, p. 1129.
F. P. Bundy:J. Appl. Phys., 1965, vol. 36, p. 616.
W. Pitsch:Arch. Eisenhuettenw., 1967, vol. 38, p. 853.
C. Zener:Elasticity and Anelasticity of Metals, University of Chicago Press, 1948.
H. Schumann:Z. Metallic. 1967, vol. 58, p. 207.
H. Schumann:Neue Huette, 1966, vol. 11, p. 299.
L. D. Blackburn, L. Kaufmann, and M. Cohen:ActaMet., 1965, vol. 13, p. 533.
M. Miyagi and C. M. Wayman:Trans. TMS-AIME, 1966, vol. 236, p. 806.
W. Hume-Rothery:ActaMet., 1966, vol. 14, p. 560.
J. Genschaft:Phys. Met. Metall., 1964, vol. 18, p. 107.
Author information
Authors and Affiliations
Additional information
Formerly with Department of Materials Science and Engineering, University of California, Berkeley, Calif.
Rights and permissions
About this article
Cite this article
Mangonon, P.L., Thomas, G. The martensite phases in 304 stainless steel. Metall Trans 1, 1577–1586 (1970). https://doi.org/10.1007/BF02642003
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF02642003