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Metallurgical and Materials Transactions A

Erschienen in:

01.11.2012

Impact Response and Microstructural Evolution of 316L Stainless Steel under Ambient and Elevated Temperature Conditions

verfasst von: Woei-Shyan Lee, Tao-Hsing Chen, Chi-Feng Lin, Wen-Zhen Luo

Erschienen in: Metallurgical and Materials Transactions A | Ausgabe 11/2012

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Abstract

The impact response and microstructural evolution of 316L stainless steel are examined at strain rates ranging from 1 × 10³ to 5 × 10³ s⁻¹ and temperatures between 298 K and 1073 K (25 °C and 800 °C) using a split Hopkinson pressure bar and transmission electron microscopy (TEM). The results show that the flow behavior, mechanical strength, and work-hardening properties of 316L stainless steel are significantly dependent on the strain rate and temperature. The TEM observations reveal that the dislocation density increases with increasing strain rate but decreases with increasing temperature. Moreover, twinning occurs only in the specimens deformed at 298 K (25 °C), which suggests that the threshold stress for twinning is higher than that for slip under impact loading. Finally, it is found that the volume fraction of transformed α′ martensite increases with increasing strain rate or decreasing temperature. Overall, the results suggest that the increased flow stress observed in 316L stainless steel under higher strain rates and lower temperatures is determined by the combined effects of dislocation multiplication, twin nucleation and growth, and martensite transformation.

Vorheriger Artikel Microstructural Parameters Controlling High-Temperature Creep Life of the Nickel-Base Single-Crystal Superalloy MC2

Nächster Artikel The Effect of Preaging Deformation on the Precipitation Behavior of an Al-Mg-Si Alloy

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R.A. Luna, J.G. Parr, and A. Hanson: Stainless Steel, ASM, Materials Park, OH, 1986, pp. 60–70.

S.G. Hong and S.B. Lee: Int. J. Fatigue, 2004, vol. 26, pp. 899–910.CrossRef

M.C. Mataya, E.R. Nilsson, E.L. Brown, and G. Krauss: Metall. Mater. Trans. A, 2003, vol. 34A, pp. 1683–1703.CrossRef

M.F. Abbod, C.M. Sellars, A. Tanaka, D.A. Linkens, and M. Mahfouf: Mater. Sci. Eng. A, 2009, vol. A491, pp. 290–96.

E. Otero, A. Pardo, M.V. Utrilla, E. Saenz, and J.F. Alvarez: Corros. Sci., 1988, vol. 40, pp. 1421–34.CrossRef

W.S. Lee and T.J. Liu: J. Nucl. Mater., 2006, vol. 359, pp. 247–57.CrossRef

R. Liang and A.S. Khan: Int. J. Plastic., 1999, vol. 15, pp. 963–80.CrossRef

W.S. Lee, C.F. Lin, T.H. Chen, and H.H. Huang: J. Mech. Behav. Biomed., 2008, vol. 1, pp. 336–44.CrossRef

G. Regazzoni, U.F. Kocks, and P.S. Follansbee: Acta Metall., 1987, vol. 35, pp. 2865–75.CrossRef

10.

W.S. Lee, C.F. Lin, T.H. Chen, and M.C. Yang: Mater. Sci. Eng. A, 2010, A527, pp. 3127–37.

11.

P.S. Follansbee and U.F. Kocks: Acta Metall., 1988, vol. 36, pp. 81–93.CrossRef

12.

W.S. Lee and C.F. Lin: Metall. Mater. Trans. A, 2002, vol. 33A, pp. 2801–10.CrossRef

13.

X. Feaugas: Acta Mater., 1999, vol. 37, pp. 3617–32.CrossRef

14.

K. Yasunaga, M. Iseki, and M. Kiritanii: Mater. Sci. Eng. A, 2003, vol. A350, pp. 76–80.

15.

H. Jarmakani, J.M. McNaney, B. Kad, D. Orlikowshi, J.H. Nguyen, and M.A. Meyers: Mater. Sci. Eng. A, 2007, vol. A463, pp. 249–62.

16.

M.E. Kassner: Acta Mater., 2004, vol. 52, pp. 1–9.CrossRef

17.

M. Blicharski and S. Gorczyca: Met. Sci., 1978, vol. 12, pp. 303–12.CrossRef

18.

F. Greulich and L.E. Murr: Mater. Sci. Eng., 1979, vol. 39, pp. 81–93.CrossRef

19.

W.S. Lee and C.F. Lin: Metall. Trans., 2001, vol. 42, pp. 2080–86.

20.

G.G. Yapici, I. Karaman, and Z.P. Luo: Acta Mater., 2006, vol. 54, pp. 3755–71.CrossRef

21.

A.J. W. Johnson, C.W. Bull, K.S. Kumar, and C.L. Briant: Metall. Mater. Trans. A, 2003, vol. 34A, pp. 295–306.CrossRef

22.

S.K. Varma, J. Kalyanam, L.E. Murr, and V. Srinivas: J. Mater. Sci. Lett., 1994, vol. 13, pp. 107–11.CrossRef

23.

J.Y. Choi and W. Jin: Scripta Mater., 1997, vol. 36, pp. 99–104.CrossRef

24.

S.S. Hecker, M.G. Stout, K.P. Staudhammer, and J.L. Smith: Metall. Trans. A, 1982, vol. 13A, pp. 619–26.

25.

W.S. Lee, T.H. Chen, C.F. Lin, and W.Z. Luo: Bioinorg. Chem. Appl., 2011, vol. 2011, p. 173782.CrossRef

26.

W. Osterle: Prakt. Metallogr., 1992, vol. 29, pp. 401–13.

27.

R.K. Ham: Philos. Mag., 1961, vol. 6, pp. 1183–84.CrossRef

28.

J. Litonski: Bull. Acad. Pol. Sci. Ser. Sci. Technol., 1977, vol. 25, pp. 7–14.

29.

S. Allain, J.P. Chateau, O. Bouaziz, S. Migot, and N. Guelton: Mater. Sci. Eng. A, 2004, vols. A387–89, pp. 158–62.

30.

A. Rohatgi, K.S. Vecchio, and G.T. Gray III: Metall. Mater. Trans. A, 2001, vol. 32A, pp.135–45.

31.

M.F. de Campos, S.A. Loureiro, D. Rodrigues, M.C.A. da Silra, and N.B. de Lima: Mater. Sci. Forum, 2008, vols. 591–93, pp. 3–7.

32.

W.S. Lee, T.H. Chen, and S.C. Huang: J. Nucl. Mater., 2010, vol. 402, pp. 1–7.CrossRef

33.

W.S. Lee, C.F. Lin, T.H. Chen, and M.C. Yang: Mater. Sci. Eng. A, 2010, vol. A527, pp. 3127–37.

34.

L.E. Murr: Shock Waves and High-Strain-Rate Phenomena in Metals, M. A. Meyers and L.E. Murr, eds., Plenum Press, New York, NY, 1981, pp. 607–73.CrossRef

35.

D.R. Chichili, K.T. Ramesh, and K.J. Hemker: Acta Mater., 1998, vol. 46, pp. 1025–43.CrossRef

Titel: Impact Response and Microstructural Evolution of 316L Stainless Steel under Ambient and Elevated Temperature Conditions
verfasst von: Woei-Shyan Lee
Tao-Hsing Chen
Chi-Feng Lin
Wen-Zhen Luo
Publikationsdatum: 01.11.2012
Verlag: Springer US
Erschienen in: Metallurgical and Materials Transactions A / Ausgabe 11/2012
Print ISSN: 1073-5623
Elektronische ISSN: 1543-1940
DOI: https://doi.org/10.1007/s11661-012-1233-2

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