Specimens of pure iron, an iron-carbon (1 wt-%C) alloy, and steels Ck 45 and En 40B (=24CrMo13) were salt bath nitrocarburized. M etallographic examination was performed after Murakami etching. This etchant provides a sensitive discrimination between pure nitrides and carbon containing nitrides (carbonitrides). Thus the two-phase (ε and γ’) constitution, as well as the carbon concentration profile within the compound layer, was revealed. Nitrogen, carbon, oxygen, and sulphur concentration profiles were quantitatively determined by electron microprobe analysis. Residual stress measurement and phase analysis were carried out by X-ray diffraction methods. Both macros trains (by analysis of line shift using the sin2 Ψ method) and microstrains (by analysis of line broadening using a Voigt single-line method) were determined. In view of a possible interaction between residual stresses in the compound layer and the diffusion zone, residual stresses were also determined in the diffusion zone beneath the compound layer. The results obtained provide a basis for a model to describe the constitution of the compound layer.
Get full access to this article
View all access options for this article.
References
1.
COLLINP. F., MITTEMEIJERE. J., and ROZENDAALH. C. F.: Z. Metallkd., 1983, 74, 620–627(in English).
2.
mirrEmEnEaE. J.: J. Heat Treat., 1983, 3, 114–119.
3.
MITTEMEIJERE. r.: Proc. Symp. on ‘Case-hardened steels: microstructural and residual stress effects’ (ed. DiesburgD. E.), 161–187; 1984, Warrendale, Pa, TMS-AIME.
4.
BELLT.: Heat Treat. Met., 1975, 2, 39–49.
5.
FINNERNB. and KUNSTH.: Hart. Tech. Mitt., 1975, 30, 26–33.
6.
MITTEMEIJERE. J., ROZENDAALH. C. F., COLONP. F., VAN DER SCHAAFP. J., and FURNEER. Th.: ‘Heat Treatment ’81’, 107–115; 1983, London, The Metals Society.
7.
KOOLW. H., MITTEMEIJERE. J. and SCHALKOORDD.: Mikrochim. Acta, 1981, Suppl.9, 349–372(in English).
8.
DELHEZR., DE ICEIJSERTh. H. and MITTEMEIJERE. I.: Fresenius Z. Anal. Chem., 1982, 312, 1–16(in English).
9.
ThH.KEIJSERDE, LANGFORDJ. I., MITTEMEIJERE. J., and VOGELSA. B. P.: J. Appl. Cryst., 1982, 15, 308–314.
10.
ROZENDAALH. C. F. and MITTEMEIJERE. J.: ‘Eigenspannungen: Entstehung-Messung-Bewertung’ (ed. MacherauchE. and HaukV.), 363–380; 983, Oberursel, Deutsche Gesellschaft fiir Metallkunde (in English).
11.
DETTNERH. and ELZEJ.: ‘Handbuch der Galvanotechnik’, Vol. II, 102; 1966, Munich, Carl Hanser Verlag.
12.
RUSTEJ.: J. Microsc. Spectrosc. Electron., 1979, 4, 123–136.
13.
REEDS. J. B.: ‘Electron microprobe analysis’: 1975, Cambridge, Cambridge University Press.
14.
DELHEZR. and MITTEMEIJERE. J.: J. App!. Crystallogr., 1975, 8, 609–611.
15.
KLUGH. P. and ALEXANDERL. E.: ‘X-ray diffraction procedures’; 1974, New York, John Wiley.
16.
MITTEMEIJERE. J., STRAVERW. T. M., COLONP. F., VAN DER SCHAAFP. J., and VAN DER HOEVENJ. A.: SCY. Metal!., 1980, 14, 1189–1192.
17.
LEVYS. A., LIBSCHJ. F., and WOODJ. D.: ‘Source book on nitriding’, 297–302, 1977; Metals Park, Ohio, American Society for Metals.
18.
MATAUSCHEKJ. and TRENKLERH.: Hart.-Tech. Mitt., 1977, 32, 177–181.
19.
PRENOSILB.: Hart-Tech. Mitt., 1973, 28, 157–164
20.
LEHRERE.: Z. Electrochem., 1930, 36, 383–392.
21.
FROMME. and GEBHARDTR.: ‘Gase und Kohlenstoff in Metallen’; 1976, Berlin, Springer-Verlag.
22.
MITTEMEIJERE. J., ROOIJENM. VAN, WIERSZYLLOWSKII., ROZENDAALH. C. F., and COLLINP. F.: Z. Metallkd., 1983, 74, 473–483 (in English).
23.
MITTEMEIJERE. J., COLLINP. F., ROOIJENM. VAN, VAN DER SCHAAFP. J., and wiEaszvuowsKtI.: ‘Heat Treatment ’81’, discussion contribution to Session 4, 220–221; 1983, London, The Metals Society.
24.
SLYCICEJ. and ERICSSONT.: ‘Heat Treatment ’81’, 185–192; 1983, London, The Metals Society.
25.
scHatimaW.: Wiss. Z. Tech. Hochsch. Karl-Marx-Stadt, 1982, 24, 795–809.
26.
GRELLETB.: J. Frottement Industrie!, 1980, (8), 7–13(in English).
27.
MITTEMEIJERE. J. and DELHEZR.: ‘Accuracy in powder diffraction’ (ed. BlockS. and HubbardC. R.), NBS Special Publication567, 271–314; 1980, Washington, DC, National Bureau of Standards.
28.
INOKUTIY., NISHIDAN., and OHASHIH.: Metal!. Trans., 1975, 6A, 773–784.
29.
NAUMANNF. K. and LANGENSCHEIDG.: Arch. Eisenhattenwes., 1965, 36, 677–682.
30.
WELLSA. and BELLT.: Heat Treat. Met., 1983, (2), 39–44.
MOOREM. G. and EVANSP.: Trans. SAE, 1958, 66, 340–345.
45.
ROZENDAALH. C. F., MITTEMEIJERE. J., COLUNP. F., and VAN DER SCHAAFP. J.: Metal!. Trans., 1983, 14A, 395–399.
46.
STRAVERW. T. M., ROZENDAALH. C. F., and MITTEMEIJERE. J.: Metal!. Trans., 1984, 15A, 627–637.
47.
MITTEMEIJERE. J., VOGELSA. B. P., and VAN DER SCHAAFP. J.: J. Mater. Sci., 1980, 34, 3129–3140.
48.
KomiH.: ‘Eigenspannungen und Lastspannugen: Moderne Ennittlung-Ergebnisse-Bewertung’ (ed. HaukV. and MacherauchE.), 112–121; 1982, Munich, Carl Hanser Verlag.
49.
LIFSCHITZB. G., ‘Physical properties of metals and alloys’, 287; 1956, Moscow, Maschgiz (in Russian).
50.
volA. E..: ‘Handbook of binary metallic systems: Structure and properties’, Vol. 1, 558–568; 1966, Jerusalem, Israel Program for Scientific Translations.
