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Metals and Materials International

Erschienen in:

25.08.2020

Effect of Accelerated Cooling Rate and Finish Rolling Temperature on the Occurrence of Arrowhead Markings in Drop-Weight Tear Test of API 5LX70 Linepipe Nb–V–Ti Steel Plate

verfasst von: N. Amirjani, M. Ketabchi, M. Eskandari, M. Hizombor

Erschienen in: Metals and Materials International | Ausgabe 11/2021

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Abstract

Four Nb–V–Ti steel plates of API 5LX70 linepipe were produced with changing accelerated cooling rate and finish rolling temperature using thermomechanical controlled process. The changes in ductile fracture surface, brittle fracture surfaces, including initial cleavage fracture and inverse fracture, arrowhead marking surfaces, and delamination were investigated using drop-weight tear test at temperatures of 0 °C and − 10 °C. Based on the drop-weight tear test results, an increase in the accelerated cooling rate, resulting in an increase in the volume fraction of quasi polygonal ferrite, fine polygonal ferrite, and granular ferrite microstructures, increased the percentage of ductile fracture surface and decreased the percentage of brittle fracture surfaces. Moreover, a reduction in the finish rolling temperature led to similar changes in the ductile fracture surface and brittle fracture surfaces due to an increase in the volume fraction of aciculae ferrite. Arrowhead markings surfaces, caused by the presence of banded structures, their percentage was reduced by increasing the accelerated cooling rate and decreasing the finish rolling temperature at the temperature of 0 °C. Furthermore, as the accelerated cooling rate increased, the number, length, thickness, and depth of delaminations were reduced at temperatures of 0 °C and − 10 °C.

Graphic Abstract

Vorheriger Artikel Characterization of the Hot Deformation Behaviour of an As-Extruded Al–Cu–Li Alloy by Constitutive Analysis

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F. Guzmán, M. Hinojosa, E. Frias, in International Conference on New Trends in Fatigue and Fracture (Springer, Berlin, 2017), pp. 157–164

H. Hillenbrand, A. Liessem, K. Biermann, C. Heckmann, V. Schwinn, in 4th International Conference on Pipeline Technology (2004), pp. 9–12

V. Carretero Olalla, R.H. Petrov, P. Thibaux, M. Liebeherr, P. Gurla, L. Kestens, Mater. Sci. Forum 706, 2710–2715 (2012)CrossRef

W. Wang, Y. Shan, K. Yang, Mater. Sci. Eng. A 502, 38–44 (2009)CrossRef

M. Militzer, Thermomechanical Processed Steels, 1st edn. (Elsevier, Amsterdam, 2014), pp. 191–214

W. Barr, C.F. Tipper, J. Iron Steel Inst. 157, 223–238 (1947)

N. Petch, Philos. Mag. 3, 1089–1097 (1958)CrossRef

I. Tamura, H. Sekine, T. Tanaka, Thermomechanical Processing of High-Strength Low-Alloy Steels, 1st edn. (Butterworth-Heinemann, London, 1988), pp. 1–3CrossRef

ASTM E436-03. Drop-Weight Tear Tests of Ferritic Steels (ASTM International, 2003)

10.

API Specification 5L. Line Pipe. (API, 2018), pp. 35

11.

API Recommended Practice 5L3. Drop-Weight Tear Tests on Line Pipe. (API, 2014), pp. 4, 5

12.

B. Hwang, Y.M. Kim, S. Lee, N.J. Kim, J.Y. Yoo, Metall. Mater. Trans. A 36, 1793–1805 (2005)CrossRef

13.

S.Y. Shin, B. Hwang, S. Lee, K.B. Kang, Metall. Mater. Trans. A 38, 537–551 (2007)CrossRef

14.

D. Park, J. Lee, Y. Lee, K. Park, W. Nam, Met. Mater. Int. 15, 197–202 (2009)CrossRef

15.

R. Schofield, G. Rowntree, N. Sarma, R. Weiner, Met. Technol. 1, 325–331 (1974)CrossRef

16.

T. Namegawa, S. Aihara, K. Shibanuma, A. Takeshita, T. Sakimoto, S. Igi, in The Twenty-second International Offshore and Polar Engineering Conference (2012), pp. 9

17.

J.W. Sowards, C.N. McCowan, E.S. Drexler, Mater. Sci. Eng. A 551, 140–148 (2012)CrossRef

18.

G. Krauss, S.W. Thompson, ISIJ Int. 35, 937–945 (1995)CrossRef

19.

G. Thewlis, Mater. Sci. Technol. 20, 143–160 (2004)CrossRef

20.

M. Eskandari, M. Mohtadi-Bonab, J. Szpunar, Mater. Des. 90, 618–627 (2016)CrossRef

21.

M. Mohtadi-Bonab, M. Eskandari, R. Karimdadashi, J. Szpunar, Met. Mater. Int. 23, 726–735 (2017)CrossRef

22.

S. Hong, S.Y. Shin, S. Lee, N.J. Kim, Metall. Mater. Trans. A 42, 2619–2632 (2011)CrossRef

23.

Y. Tian, Q. Li, Z. Wang, G. Wang, J. Mater. Eng. Perform. 24, 3307–3314 (2015)CrossRef

24.

F. Khalid, M. Farooque, A. Ul Haq, A. Khan, Mater. Sci. Technol. 15, 1209–1215 (1999)CrossRef

25.

S.W. Thompson, P. Howell, Mater. Sci. Technol. 8, 777–784 (1992)CrossRef

26.

A. Ahmad, M. Zhou, ECS Trans. 3, 153 (2006)CrossRef

27.

X. Zhang, Q. Yang, L. De Jonghe, Z. Zhang, J. Microsc. 207, 58–68 (2002)CrossRef

28.

M. Almoussawi, A. Smith, M. Faraji, S. Cater, J. Metall. Microstruct. Anal. 6, 569–576 (2017)CrossRef

29.

N. Amirjani, M. Ketabchi, M. Eskandari, M. Hizombor, J. Mater. Eng. Perform. 29, 4275–4285 (2020)CrossRef

30.

S.Y.S.B. Hwang, S. Lee, N.J. Kim, S.S. Ahn, Mater. Sci. Technol. 24, 945–956 (2008)CrossRef

31.

M.G. Lage, J. Mater. Res. Technol. 4, 353–358 (2015)CrossRef

32.

S.V. Kailas, Failure, 1st edn. (Indian Institute of Science, India, 2007), pp. 4

33.

Z. Yang, Proc. Mater. Sci. 3, 1591–1598 (2014)CrossRef

Titel: Effect of Accelerated Cooling Rate and Finish Rolling Temperature on the Occurrence of Arrowhead Markings in Drop-Weight Tear Test of API 5LX70 Linepipe Nb–V–Ti Steel Plate
verfasst von: N. Amirjani
M. Ketabchi
M. Eskandari
M. Hizombor
Publikationsdatum: 25.08.2020
Verlag: The Korean Institute of Metals and Materials
Erschienen in: Metals and Materials International / Ausgabe 11/2021
Print ISSN: 1598-9623
Elektronische ISSN: 2005-4149
DOI: https://doi.org/10.1007/s12540-020-00841-3

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