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Metals and Materials International

Published in:

20-06-2020

Estimation of Fracture Toughness Using Flat-Ended Cylindrical Indentation

Authors: Woojoo Kim, Seunghun Choi, Junyeong Kim, Seung-won Jeon, Min-Jae Choi, Dongil Kwon

Published in: Metals and Materials International | Issue 9/2021

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Abstract

A method is proposed to predict the fracture toughness of in-service structures using the instrumented indentation test. While previous studies have attempted to predict fracture toughness using spherical indenters, we propose the method to predict fracture toughness using flat-ended cylindrical indenters. Using the geometric similarity of a cylindrical indentation test and the Cracked Round Bar (CRB) fracture toughness test, fracture toughness values were derived from a single indentation test by assuming that the load–depth curve of the indentation test is the same as the load–displacement curve of the CRB fracture toughness test. To determine the crack initiation point, the concept of limit load in CRB testing is adopted, and a new load–depth curve is obtained using a suggestion in the standard of fracture toughness test. In order to apply the proposed method directly to in-service structures, the model uses mechanical parameters that can be obtained by indentation testing. The model was verified on metallic materials primarily used in nuclear power plants.

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G.R. Irwin, J. Appl. Mech. Trans. ASME 24, 361–364 (1957)CrossRef

J.R. Rice, J. Appl. Mech. 35(2), 379–386 (1968)CrossRef

ASTM E399-19 Standard test method for linear-elastic plane-strain fracture toughness KIc of metallic materials. (West Conshohocken, PA; ASTM International, 2019)

ASTM International, E1820-18ae1 Standard Test Method for Measurement of Fracture Toughness (ASTM International, West Conshohocken, 2018)

ASTM International, E1921-19b Standard Test Method for Determination of Reference Temperature, To, for Ferritic Steels in the Transition Range (West Conshohocken, PA; ASTM International, 2019)

S.-K. Kang, Y.-C. Kim, K.-H. Kim, J.-Y. Kim, D. Kwon, Int. J. Plast 49, 1–15 (2013)CrossRef

O.M. Kwon, J. Won, J.-H. Kim, C. Cho, E.C. Jeon, D. Kwon, Met. Mater. Int. 25, 1055–1510 (2019)

J.I. Jang, J. Ceram. Process. Res. 10(3), 391–400 (2009)

Y.-C. Kim, H.-J. Ahn, D. Kwon, J.-Y. Kim, Met. Mater. Int. 22(1), 12–19 (2016)CrossRef

10.

H.-J. Ahn, J.-H. Kim, H. Xu, J. Lee, J.-Y. Kim, Y.-C. Kim, D. Kwon, Met. Mater. Int. 23(3), 465–472 (2017)CrossRef

11.

J. Kim, K.-H. Kim, D. Kwon, Met. Mater. Int. 22(2), 209–215 (2016)CrossRef

12.

C. Cho, S. Choi, O.M. Kwon, S. Lee, J.-H. Kim, D. Kwon, Met. Mater. Int. (2019). https://doi.org/10.1007/s12540-020-00680-2CrossRef

13.

B. Lawn, R. Wilshaw, J. Mater. Sci. 10(6), 1049–1081 (1975)CrossRef

14.

T.S. Byun, J.W. Kim, J.H. Hong, J. Nucl. Mater. 252(3), 187–194 (1998)CrossRef

15.

F.M. Haggag, R.K. Nanstad, Estimating fracture toughness using tension or ball indentation tests and a modified critical strain model. ASME PVP 170, 41–46 (1989)

16.

J.-S. Lee, J.-I. Jang, B.-W. Lee, Y. Choi, S.G. Lee, D. Kwon, Acta Mater. 54(4), 1101–1109 (2006)CrossRef

17.

S.-W. Jeon, K.-W. Lee, J.Y. Kim, W.J. Kim, C.-P. Park, D.J.E.M. Kwon, Exp. Mech. 57(7), 1013–1025 (2017)CrossRef

18.

B. Riccardi, R. Montanari, Mater. Sci. Eng., A 381(1), 281–291 (2004)CrossRef

19.

K.L. Johnson, Contact Mechanics (Cambridge University Press, Cambridge, 1985)CrossRef

20.

I.N. Sneddon, Boussinesq’s problem for a flat-ended cylinder. Math. Proc. Camb. 42(1), 29–39 (1946)CrossRef

21.

H. Tada, P.C. Paris, G.R. Irwin, Stress Analysis of Cracks Handbook (ASME Press, New York, 1973)

22.

D.P.H. Rooke, D.J. Cartwright, Compendium of Stress Intensity Factors (Pendragon House, Palo Alto, 1976)

23.

Y. Murakami, Stress Intensity Factors Handbook (Pergamon Press, Oxford, 1987)

24.

M. Scibetta, R. Chaouadi, E. Van Walle, Int. J. Fract. 104(2), 145–168 (2000)CrossRef

25.

J.H. Giovanola, T. Kobayashi, Eng. Fract. Mech. 59(2), 117–136 (1998)CrossRef

26.

W. Yu, J. Mater. Res. 11(9), 2358–2367 (1996)CrossRef

27.

Y. Kim, C. Oh, M. Myung, J. Park, Eng. Fract. Mech. 73, 1849–1864 (2006)CrossRef

28.

ESIS P2-92: ESIS procedure for determining the fracture behavior of materials (European Structural Integrity Society, 1992)

29.

ASTM International, E8/E8M-16a Standard Test Methods for Tension Testing of Metallic Materials (ASTM International, West Conshohocken, 2016)

30.

H.Y. Yu, M.A. Imam, B.B. Rath, J. Mater. Sci. 20(2), 636–642 (1985)CrossRef

31.

D. Tabor, The Hardness of Metals (Clarendon, Oxford, 1951)

Title: Estimation of Fracture Toughness Using Flat-Ended Cylindrical Indentation
Authors: Woojoo Kim
Seunghun Choi
Junyeong Kim
Seung-won Jeon
Min-Jae Choi
Dongil Kwon
Publication date: 20-06-2020
Publisher: The Korean Institute of Metals and Materials
Published in: Metals and Materials International / Issue 9/2021
Print ISSN: 1598-9623
Electronic ISSN: 2005-4149
DOI: https://doi.org/10.1007/s12540-020-00753-2

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