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Abstract

A model that describes the ferrite–austenite transformation during continuous heating in Armco iron and three very low carbon, low manganese steels with a fully ferritic initial microstructure is presented. This model allows calculation of the volume fractions of austenite and ferrite during transformation as a function of temperature, and hence knowledge of the austenite formation kinetics under non-isothermal conditions in fully ferritic steels. Moreover, since dilatometric analysis is a technique very often used to study phase transformations in steels, a second model, which describes the dilatometric behaviour of the material and calculates the relative change in length that occurs during the ferrite–austenite transformation, has also been developed. Both kinetics and dilatometric models have been validated by comparison of theoretical and experimental dilatometric heating curves. Predicted and experimental results are in satisfactory agreement.

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References

BHADESHIA

H. K. D. H.

and SVENSSON

L. E.

: ‘Mathematical modelling of weld phenomena’, 109; 1993, London, The Institute of Materials.

ROBERTS

G. A.

and MEHL

R. F.

: ASM Trans., 1943, 31, 613–650.

JUDD

R. R.

and H. w. PAXTON: Trans. AIME, 1968, 242, 206–215.

KINOSHITA

and UEDA

: Trans. Iron Steel Inst. Jpn, 1974, 14, 411–418.

MOLINDER

: Acta Metall., 1956, 4, 565–571.

HILLERT

, NILSSON

, and TORNDAHL

L. E.

: J. Iron Steel Inst., 1971, 209, 49–66.

NEMOTO

: Metall Trans. A, 1977, 8A, 431–437.

GARCIA

C. I.

and DEARDO

A. J.

: Metall Trans. A, 1981, 12A, 521–530.

SPEICH

G. R.

, DEMAREST

V. A.

, and MILLER

R. L.

: Metall. Trans. A, 1981, 12A, 1419–1428.

10.

SOUZA

M. M.

, GUIMARAES

J. R. C.

, and CHAWLA

K. K.

: Metall Trans. A, 1982, 13A, 575–579.

11.

CAI

X.-L.

, GARRATREED

A. J.

, and w. s. OWEN: Metall Trans. A, 1985, 16A, 543–557.

12.

NAVARA

and HARRYSSON

: Scr. Metall., 1984, 18, 605–610.

13.

J. J.

, Kim

I. S.

, and H. S. cHoi: Metall Trans. A, 1985, 16A, 1237–1245.

14.

ROOSZ

, GACSI

, and FUCHS

E. G.

: Acta Metall., 1983, 31, 509–517.

15.

YANG

J. R.

and BHADESHIA

H. K. D. H.

: Mater. Sci. Eng. A, 1991, A131, 99–113.

16.

GARC

ANDRES

A DE

, CABALLERO

F. G.

, CAPDEVILA

, and BHADESHIA

H.K.D.H.

: Scr. Mater., 1998, 39, 791–796.

17.

GAVARD

, BHADESHIA

H. K. D. H.

, MACKAY

D. J. C.

, and suzum

Mater. Sci Technol, 1996, 12, 453–463.

18.

BAILER-JONES

C. A. L.

, BHADESHIA

H. K. D. H.

, and MACKAY

D. J. C.

: Mater. Sci Technol, 1999, 15, 287–294.

19.

VOORT

G. F. VANDER

: ‘Metallography. Principles and practice’, 427; 1984, New York, McGraw-Hill.

20.

SPEICH

G. R.

and SZIRMAE

: Trans. AIME, 1969, 245, 1063–1074.

21.

BUNSHAH

R. F.

and MEHL

R. F.

: Trans. AIME, 1953, 197, 1251–1258.

22.

CAHN

J. W.

: Acta Metall, 1956, 4, 449–459.

23.

DIRNFELD

S. F.

KOREVAAR

B. M.

, and SPUKER

F. VAN'T

: Metall Trans., 1974, 5, 1437–1444.

24.

CHRISTIAN

J. W.

: ‘The theory of transformations in metals and alloys. Part 1’, 19; 1975, Oxford, Pergamon Press.

25.

SHEWMON

: ‘Diffusion in solids’, 166; 1963, New York, McGraw-Hill.

26.

AARONSON

H. I.

, DOMIAN

H. A.

, and POUND

G. M.

: Trans. AIME, 1966, 236, 753–767.

27.

AARONSON

H. I.

, DOMIAN

H. A.

, and POUND

G. M.

: Trans. AIME, 1966, 236, 768–781.

28.

KAUFMAN

, CLOUGHERTY

E. V.

, and WEISS

R. J.

: Acta Metal 1963, 11, 323–335.

29.

ZENER

: Trans. AIME, 1946, 167, 550–595.

30.

KAMAT

R. G.

, HAWBOLT

E. B.

, BROWN

L. C.

, and BRIMACOMBE

J. K.

: Metall Trans. A, 1992, 23A, 2469–2482.

31.

RIDLEY

, STUART

, and ZWELL

: Trans. AIME, 1969, 245, 1834–1836.

32.

DYSON

D. J.

and HOLMES

: J. Iron Steel Inst., 1970, 208, 469–474.

33.

TAKAHASHI

PhD

thesis, The University of Cambridge, Cambridge, UK, 1992.

Kinetics and dilatometric behaviour of non-isothermal ferrite–austenite transformation

Abstract

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