Comparison of stress relief cracking in A 508 2 and A 533 B pressure vessel steels

Abstract

The mechanisms of, and susceptibility to, stress relief cracking (SRC) were studied in A 508 class 2 and A 533 B pressure vessel steels by means of fixed displacement, load relaxation tests on notched specimens in pure bending at 823–923 K in vacuum. The specimens had previously been given heat affected zone simulation treatments in the range 1323–1573 K. The mechanisms of SRC were found to be the same as reported separately for A 508 2 steel, which was found to be generally more susceptible to SRC than A 533 B steel because of the faster formation of microcracks and coalescence of microcracks into a macrocrack. This can be rationalized in terms of the higher creep strength in A 508 2 steel owing to the presence of chromium, and the higher concentration of intergranular sulphur or reprecipitated sulphides owing to the lower manganese content of A 508 2 steel, which results in less stable sulphides. These factors are discussed in the framework of a recently proposed model for the brittle mode of SRC.

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References

VINCKIER

A. G.

and PENSE

A. W.

: Weld. Res. Council Bull., 1974, 197.

McMAHON

C. J.

Jr , DOBBS

R. J.

, and GENTNER

D. H.

: Mater. Sci. Eng., 1979, 37, 179.

JUN KAMEDA

J. SHIN

, and McMAHON

C. J.

Jr : in ‘Micro and macro mechanics of crack growth’, ( ed. Sadananda

, Rath

B. B.

, and Michel

D. J.

), 149; 1981, New York, American Institute for Mining and Metallurgical Engineers.

SHIN

and McMAHON

c. J.

Jr:

Acta Metall., in press.

TADA

, PARIS

P. C.

, and IRWIN

G. R.

: ‘The stress analysis of cracks’, 213; 1973, Hellertown, Pa, DEL Research Co.

YEN

A. C.

, GRAHAM

W. R.

, and BELTON

G. R.

: Metall. Trans., 1977, 9A, 31.

KUSSMAUL

, BLIND

, and EWALD

: Int. J. Pressure Vessels Piping, 1977, 5, 159.

HIPPSLEY

C. A.

, KNorr

J. F.

, and EDWARDS

B. C.

: Acta Metall., 1980, 28, 869.

HIPPSLEY

C. A.

, KNOTT

J. F.

, and EDWARDS

B. C.

: Acta Metall., 1982, 30, 641.

10.

HIPPSLEY

C. A.

, KING

J. E.

, and KNOTT

J. F.

: in ‘Advances in the physical metallurgy and applications of steels’, 147; 1982, London, The Metals Society.

11.

HIPPSLEY

C. A.

: Met. Sci., 1983, 17, 277.

12.

MARCHUT

and McMAHON

C. J.

Jr:

in ‘Electron and positron spectroscopies in materials science and engineering’, (ed. Buck

), 183; 1979, London/New York, Academic Press.

13.

MIDDLETON

C. J.

: Met. Sci., 1981, 15, 154.

14.

TURKDOGAN

E. T.

, IGNATOWICZ

, and PEARSON

: J. Iron Steel Inst., 1955, 180, 349.

15.

FUJII

, YAMAMOTO

, and UENO

: Tetsu-to-Hagané (J. Iron Steel Inst. Jpn), 1981, 67, 1523.

16.

RITTER

J. C.

and McPITERSON

: Met. Technol., 1974, 1, 506.

17.

HULL

and RIMMER

D. E.

: Philos. Mag., 1959, 4, 673.

18.

SPEIGHT

M. V.

and BEERE

: Met. Sci., 1975, 9, 190.

19.

BEERE

and SPEIGHT

M. V.

Met. Sc., 1978, 12, 172.

20.

EDWARD

G. H.

and ASHBY

M. F.

: Ada Metall., 1979, 27, 1505.

21.

NEEDLEMAN

and RICE

J. R.

: Ada Metall., 1980, 28, 1315.

22.

CHEN

I-W.

and ARGON

A. S.

Ada Metall., 1981, 29, 1759.

23.

PICHARD

, RIEU

, and GOUX

MeM. Sci. Rev. Metall., 1973, 70, 13.

24.

BREAR

J. M.

and KING

B. L.

: in Proc. Conf. on ‘Grain boundaries’; 1976, London, The Metals Society.

25.

NAKAMURA

, NAIKI

, and OXABAYASTU

: in Proc. 1st Int. Conf. on ‘Fracture’, 863; 1965, Sendai, Japan.

26.

ITO

and NAKANISHI

: HW document X-668-72; 1972, London, International Institute of Welding.

27.

KANAZAWA

, YAMOTO

, TAKEDA

, and HASHIMOTO

: J. Jpn Weld. Soc., 1975, 44, 791.

28.

Ono

, OKAMURA

, YANO

, FUJII

, and YAMATO

: Tessa-to-Hagané (J. Iron Steel Inst. Jpn), 1981, 67, (10), 1777.