To investigate the mechanical properties of pipeline subjected to plastic deformation, tensile tests and crack-tip-opening displacement (CTOD) tests were conducted on X60, X65, and X80 line pipe steels with uniaxial tensile or compressive prestrain, εpr. The tensile tests revealed that the Bauschinger effect and work hardening were dependent on the yield-to-tensile ratio (YT) of the steels; the change in yield stress due to prestrain linearly depended on the YT of the base metal. A critical CTOD for crack initiation decreased with increasing εpr. Compressive prestrain had a larger effect on the reduction of the critical CTOD than tensile prestrain. The test results showed that the reduction in the critical CTOD due to tensile prestrain was predictable with a simplified theoretical model employing a critical fracture strain of the base metal.

1.
Williams
,
D. N.
, 1980, “
Interaction Between the Bauschinger Effect and Strain Aging
,”
Metall. Trans. A
0360-2133,
11
, pp.
1629
1631
.
2.
Fududa
,
N.
,
Yatabe
,
H.
,
Kawaguchi
,
S.
,
Watanabe
,
T.
, and
Masuda
,
T.
, 2003, “
Experimental and Analytical Study of Cold Bending Process for Pipelines
,”
ASME J. Offshore Mech. Arct. Eng.
0892-7219,
125
, pp.
153
157
.
3.
Leis
,
B. N.
,
Goetz
,
D. P.
, and
Scott
,
P. M.
, 1986, “
Prediction of Inelastic Crack Growth in Ductile Line Pipe Materials
,” in
Proceedings of the 7th Symposium on Line Pipe Research
,
Arlington
, VA,
American Gas Association
,
16
, pp.
1
31
.
4.
Hagiwara
,
N.
,
Masuda
,
T.
, and
Oguchi
,
N.
, 2000, “
Effects of Prestrain of Fracture Toughness and Fatigue-Crack Growth of Line Pipe Steels
,”
ASME J. Pressure Vessel Technol.
0094-9930,
123
, pp.
355
361
.
5.
Cosham
,
A.
,
Palmer
,
A.
, and
Hopkins
,
P.
, 2003, “
An experimental Study of the Effect of Pre-strain on the Fracture Toughness of Line Pipe Steel
,” in
Proceedings of the 10th International Conference on Pressure Vessel Technology (ICPVT-10)
,
Vienna
, Austria, p.
357
.
6.
Cosham
,
A.
, 2001, “
A Model of Pre-Strain Effects on Fracture Toughness
,”
ASME J. Offshore Mech. Arct. Eng.
0892-7219,
123
, pp.
182
190
.
7.
Cosham
,
A.
,
Hagiwara
,
N.
,
Fukuda
,
N.
, and
Masuda
,
T.
, 2002, “
A Model to Predict the Effect of Pre-strain on the Fracture Toughness of Line Pipe Steel
,” in
Proceedings of the 4th International Pipeline Conference (IPC 2002)
,
Calgary
, Alberta, Canada, ASME, IPC02–27324,
B
, pp.
1965
1978
.
8.
Horikawa.
,
K.
, 1980, “
Strain Aging Embrittlement of Structural Steel due to Cold Forming
,”
Proc. Japan Society of Civil Engineers
,
300
, pp.
13
20
(in Japanese).
9.
British Standard Institution (BSI
, 1991, “
Fracture Mechanics Toughness Tests—Part 1: Method for determination of KIc, Critical CTOD and Critical J Values of Metallic Materials
,” BS 7448–1.
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