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Metallurgical and Materials Transactions A

Published in:

01-07-2013

An Assessment and Estimation of the Damage Progression Behavior of IN738LC under Various Applied Stress Conditions Based on EBSD Analysis

Authors: Daisuke Kobayashi, Masamichi Miyabe, Yukio Kagiya, Ryuji Sugiura, A. Toshimitsu Yokobori Jr.

Published in: Metallurgical and Materials Transactions A | Issue 7/2013

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Abstract

In order to characterize the damage progression behavior of IN738LC and the influence of applied stress, the average misorientation within grains was evaluated using the electron backscattered diffraction (EBSD) method, by measuring over a million data points located across almost the whole zone of the tested specimens. It has been shown under various test conditions such as differing temperatures and strain rates that the average misorientation increases linearly with the increase of creep strains. As a result, it is confirmed that it is possible to assess the remaining creep fracture life from its average misorientation value regardless of the testing temperature and strain rate. In addition, the deformation and fracture mechanisms of various types of mechanical damage, such as tensile, impact, and creep conditions, were discussed by evaluating the characteristics of misorientation distribution. As a result, it has been revealed that creep damage affects a large area of the material, but it is localized near grain boundaries, which is completely different from that of tensile or impact damage. In conclusion, detailed investigation into the cross section of fracture samples using the EBSD misorientation analysis allows for the qualitative estimation of the fracture mode under various applied stress conditions, the cause of the fracture.

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J.M. Aurrecoechea, W.D. Brentnall, and J.R. Gast: ASME90-GT-23, 1990.

D. Kobayashi and T. Banno: Proc. Therm. Nucl. Power Gen. Tech., 2005, 591, 56–53.

A.T. Yokobori, Jr.: Eng. Fract. Mech., 1999, 62, 61–78.CrossRef

N.J. Grant and A.R. Chaudhuri: in Deformation and Fracture at Elevated Temperature, MIT Press, Cambridge, MA, 1965, p. 105.

E.A Calman , B.D. Burns J Inst Metals 1950; 77:445.

Hibbard WR. Trans AIME 1949; 180:52.

H. Kimura, Y. Wang, Y. Akiniwa, K. Tanaka, Trans. Japan Soc. of Mech. Eng., A, 2005;71:118.

Wright SI, J Comput Assist Microsc, 1993; 5:207.

A.J. Schwartz, M. Kumar, D.P. Field, and B.L. Adams, eds.: Electron Backscatter Diffraction in Materials Science, 2nd ed., Springer, New York, 2009.

10.

A. J Wilkinson, D. J. Dingley, Acta Metal. Mater., 1991; 39:3047.CrossRef

11.

J.A. Sutliff: Microsc. Microanal., 1999, Supp 2, p. 236.

12.

Mino K, Imamura R, Koiwai H, Fukuoka C, Advanc. Eng. Mate, 2001; 3:922.CrossRef

13.

E.M. Lehockey, Y. Lin, and O.E. Lepik: Electron Backscatter Diffraction in Materials Science. A.J. Schwartz, M. Kumar, and B.L. Adams, ed., Kluwer Academic/Plenum Publishers, New York, 2000, p. 247.

14.

M. Kamaya, A. J. Wilkinson and J. M. Titchmarsh, Acta Mater., 2006;54: 539.CrossRef

15.

L.N. Brewer, P. Field, and C. Merriaman: Electron Backscatter Diffraction in Materials Science, A.J. Schwartz, M. Kumar, B.L. Adams and D.P. Field, eds. 2nd ed., Springer, New York, 2009, p. 251.

16.

D. Kobayashi, M. Miyabe, Y. Kagiya, Y. Nagumo, R. Sugiura, T. Matsuzaki, and A. T. Yokobori Jr.: Strength, Fract Complex., 2011, 7 (2), 157.

17.

D. Kobayashi, M. Miyabe, Y. Kagiya, Y. Nagumo, R. Sugiura, T. Matsuzaki, and A.T. Yokobori, Jr.: Mater. High Temp., 2012, vol. 29 (7), pp. 301–07.CrossRef

18.

D. Kobayashi, A. Ito, M. Miyabe, Y. Kagiya, K. Ishibashi, D. Saito, and Y. Yoshioka: Proc. Int. Gas Turbine Congr. 2011, p. 199.

19.

D. Hull: Fractography, Cambridge University Press, Cambridge, 1999.

20.

B.M. Strauss and S.K. Putatunda: Quantitative Methods in Fractography, STP 1085, ASTM, Philadelphia, 1990.

21.

R. Koterazawa: Fractography and the Application, Nikkan Kogyo Shinbunsya, 1981.

22.

Committee on Fractography, ed.: Fractography, Department of Soc. Mater. Sci., Maruzen Co. Ltd., Japan, 2000.

23.

S.I. Wright, M.M. Nowell and D.P. Field: Microsc. Microanal., 2011, 17 (3) 316–29.CrossRef

24.

K. Kunze, S. I. Wright, B. L. Adams, D. J. Dingley, Textures and Microstruct., 1993;20:41.CrossRef

25.

A.P. Sutton: Philos. Mag. Lett., 1996, vol. 74 (5), p. 389.

26.

F. J. Humphreys, P. S. Bate, P. J Hurley, J. of Microsc., 2001;201:50.CrossRef

27.

R. L. Coble, J. Appl. Phys., 1963; 34:1679.CrossRef

28.

J. G. Harper, L. A. Shepard, J. E. Dorn, Acta Metall., 1958;6:509.CrossRef

29.

C. Fukuoka, K. Morishima, H. Yoshizawa, K. Mino, Scripta Mater., 2002;46:61.CrossRef

30.

M. Kamaya, J. Quinta Da Fonseca, L.M. Li, and M. Preuss: Appl. Mech. Mater., 2007, 7–8, 173.CrossRef

Title: An Assessment and Estimation of the Damage Progression Behavior of IN738LC under Various Applied Stress Conditions Based on EBSD Analysis
Authors: Daisuke Kobayashi
Masamichi Miyabe
Yukio Kagiya
Ryuji Sugiura
A. Toshimitsu Yokobori Jr.
Publication date: 01-07-2013
Publisher: Springer US
Published in: Metallurgical and Materials Transactions A / Issue 7/2013
Print ISSN: 1073-5623
Electronic ISSN: 1543-1940
DOI: https://doi.org/10.1007/s11661-013-1677-z

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