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Metals and Materials International

Erschienen in:

26.07.2019

Microstructure and Mechanical Properties of (TiZrHf)₅₀(NiCoCu)₅₀ High Entropy Alloys

verfasst von: Chih-Hsuan Chen, Yue-Jin Chen, Jia-Jyun Shen

Erschienen in: Metals and Materials International | Ausgabe 5/2020

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Abstract

The microstructure and mechanical properties of pseudo-binary (TiZrHf)₅₀(NiCoCu)₅₀ high entropy alloys (HEAs) with B2 matrix were investigated in this study. The studied HEAs includes Ti₄₀Zr₁₀Ni₄₀Co₅Cu₅, Ti₃₀Zr₂₀Ni₃₀Co₁₀Cu₁₀, Ti₂₅Zr₂₅Ni_16.67Co_16.67Cu_16.67, Ti₃₀Zr₁₀Hf₁₀Ni₃₀Co₁₀Cu₁₀, Ti₂₀Zr₁₅Hf₁₅Ni₂₀Co₁₅Cu₁₅, and Ti_16.67Zr_16.67Hf_16.67Ni_16.67Co_16.67Cu_16.67. XRD and SEM analyses revealed that all studied HEAs were a mixture of B2 and C15 intermetallic phases, instead of a single solid solution, due to their highly negative enthalpy of mixing and the relatively large difference in atomic radii. The B2 matrix was found capable of forming a solid solution of all six elements in a wide composition range. The lattice constants of B2 and C15 phases increase linearly with increasing the difference in atomic radii. Additionally, the microhardness of these HEAs increases from 409 to 595 HV with the increasing difference in atomic radii as well. Compression tests demonstrated substitution of Zr with Hf can improve the ductility. In all studied HEAs, the Ti₃₀Zr₁₀Hf₁₀Ni₃₀Co₁₀Cu₁₀ HEA achieves a great balance between yield strength, ultimate compressive strength, and fracture strain of 1574 MPa, 1933 MPa, and 6.5%, respectively.

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M.C. Gao, J.W. Yeh, P.K. Liaw, Y. Zhang, High-Entropy Alloys: Fundamentals and Applications (Springer, New York, 2016)

M. Feuerbacher, T. Lienig, C. Thomas, Scr. Mater. 152, 40–43 (2018)

B. Gludovatz, A. Hohenwarter, D. Catoor, E.H. Chang, E.P. George, R.O. Ritchie, Science 345, 1153–1158 (2014)

T. K. Tsao, A. C. Yeh, C. M. Kuo and H. Murakami, Adv. Eng. Mater.19 (2017)

X. Yang, Y. Zhang, Mater. Chem. Phys. 132, 233–238 (2012)

S. Guo, C. Ng, J. Lu, C.T. Liu, J. Appl. Phys. 109, 103505 (2011)

D.B. Miracle, O.N. Senkov, Acta Mater. 122, 448–511 (2017)

N.N. Guo, L. Wang, L.S. Luo, X.Z. Li, Y.Q. Su, J.J. Guo, H.Z. Fu, Mater. Des. 81, 87–94 (2015)

Y. Zou, S. Maiti, W. Steurer, R. Spolenak, Acta Mater. 65, 85–97 (2014)

10.

O.N. Senkov, S.L. Semiatin, J. Alloy. Compd. 649, 1110–1123 (2015)

11.

O.N. Senkov, S.V. Senkova, C. Woodward, Acta Mater. 68, 214–228 (2014)

12.

O.N. Senkov, D.B. Miracle, K.J. Chaput, J.-P. Couzinie, J. Mater. Res. 33, 3092–3128 (2018)

13.

Y.D. Wu, Y.H. Cai, T. Wang, J.J. Si, J. Zhu, Y.D. Wang, X.D. Hui, Mater. Lett. 130, 277–280 (2014)

14.

J.Y. He, W.H. Liu, H. Wang, Y. Wu, X.J. Liu, T.G. Nieh, Z.P. Lu, Acta Mater. 62, 105–113 (2014)

15.

C.J. Tong, Y.L. Chen, J.W. Yeh, S.J. Lin, S.K. Chen, T.T. Shun, C.H. Tsau, S.Y. Chang, Metall. Mater. Trans. A 36, 881–893 (2005)

16.

B.A. Welk, R.E.A. Williams, G.B. Viswanathan, M.A. Gibson, P.K. Liaw, H.L. Fraser, Ultramicroscopy 134, 193–199 (2013)

17.

M.V. Ivchenko, V.G. Pushin, N. Wanderka, Tech. Phys. 59, 211–223 (2014)

18.

O.N. Senkov, J.K. Jensen, A.L. Pilchak, D.B. Miracle, H.L. Fraser, Mater. Des. 139, 498–511 (2018)

19.

N.Y. Yurchenko, N.D. Stepanov, S.V. Zherebtsov, M.A. Tikhonovsky, G.A. Salishchev, Mater. Sci. Eng., A 704, 82–90 (2017)

20.

S. Guo, C.T. Liu, Prog. Nat. Sci. Mater. Int. 21, 433–446 (2011)

21.

A. Takeuchi, A. Inoue, Mater. Trans. 46, 2817–2829 (2005)

22.

Z.J. Wang, S. Guo, C.T. Liu, Jom-Us 66, 1966–1972 (2014)

23.

H.J. Park, Y.S. Na, S.H. Hong, J.T. Kim, Y.S. Kim, K.R. Lim, J.M. Park, K.B. Kim, Metal Mater. Int. 22, 551–556 (2016)

24.

Y. Zhang, Y.J. Zhou, J.P. Lin, G.L. Chen, P.K. Liaw, Adv. Eng. Mater. 10, 534–538 (2008)

25.

S. Guo, Q. Hu, C. Ng, C.T. Liu, Intermetallics 41, 96–103 (2013)

26.

O. Karakoc, C. Hayrettin, D. Canadinc, I. Karaman, Acta Mater. 153, 156–168 (2018)

27.

A. Evirgen, I. Karaman, R. Santamarta, J. Pons, C. Hayrettin, R.D. Noebe, Acta Mater. 121, 374–383 (2016)

28.

G. Leitner, G.E.R. Schulze, Kristall und Technik 6, 449–463 (1971)

29.

S. M. Russell and F. Sczerzenie, in Proceedings of the International Conference on Shape Memory and Superelastic Technologies (SMST-94), CA, USA, p. 43 (1994)

30.

J. Sakurai, S. Hata, Mater. Sci. Eng., A 541, 8–13 (2012)

31.

T. Chakrabarti, L. Rangaraj, V. Jayaram, Mater. Today Proc. 3, 3077–3085 (2016)

32.

V. ASM Handbook, Alloy Phase Diagram, ASM Iternational, Ohio

33.

R. Scholl, D.J. Larson, E.J. Freise, J. Appl. Phys. 39, 2186 (1968)

34.

M. Matsuda, K. Hayashi, M. Nishida, Mater. Trans. 50, 2335–2340 (2009)

35.

H. Chen, A. Kauffmann, S. Laube, I.C. Choi, R. Schwaiger, Y. Huang, K. Lichtenberg, F. Müller, B. Gorr, H.J. Christ, M. Heilmaier, Metall. Mater. Trans. A 49, 772–781 (2018)

36.

O.N. Senkov, J.M. Scott, S.V. Senkova, D.B. Miracle, C.F. Woodward, J. Alloy. Compd. 509, 6043–6048 (2011)

37.

O.N. Senkov, G.B. Wilks, J.M. Scott, D.B. Miracle, Intermetallics 19, 698–706 (2011)

38.

O.N. Senkov, S.V. Senkova, D.B. Miracle, C. Woodward, Mater. Sci. Eng., A 565, 51–62 (2013)

39.

E. Fazakas, V. Zadorozhnyy, L.K. Varga, A. Inoue, D.V. Louzguine-Luzgin, F.Y. Tian, L. Vitos, Int. J. Ref. Met. Hard Mater. 47, 131–138 (2014)

40.

N.D. Stepanov, D.G. Shaysultanov, G.A. Salishchev, M.A. Tikhonovsky, Mater. Lett. 142, 153–155 (2015)

41.

C.-C. Juan, M.-H. Tsai, C.-W. Tsai, C.-M. Lin, W.-R. Wang, C.-C. Yang, S.-K. Chen, S.-J. Lin, J.-W. Yeh, Intermetallics 62, 76–83 (2015)

42.

B. Zhang, M.C. Gao, Y. Zhang, S.M. Guo, Calphad 51, 193–201 (2015)

43.

M.C. Gao, B. Zhang, S. Yang, S.M. Guo, Metall. Mater. Trans. A 47, 3333–3345 (2016)

44.

H. Yao, J.-W. Qiao, M.C. Gao, J.A. Hawk, S.-G. Ma, H. Zhou, Entropy 18, 189 (2016)

45.

H.W. Yao, J.W. Qiao, M.C. Gao, J.A. Hawk, S.G. Ma, H.F. Zhou, Y. Zhang, Mater. Sci. Eng., A 674, 203–211 (2016)

46.

H.W. Yao, J.W. Qiao, J.A. Hawk, H.F. Zhou, M.W. Chen, M.C. Gao, J. Alloy. Compd. 696, 1139–1150 (2017)

47.

H. Hosoda, S. Hanada, K. Inoue, T. Fukui, Y. Mishima, T. Suzuki, Intermetallics 6, 291–301 (1998)

48.

Y. Kishi, Z. Yajima, K. Shimizu, Mater. Trans. 43, 834–839 (2002)

49.

L. Isola, P. La Roca, C. Sobrero, V. Fuster, P. Vermaut, J. Malarría, Mater. Des. 107, 511–519 (2016)

50.

A. Ishida, M. Sato, K. Ogawa, Philos. Mag. 88, 2427–2438 (2008)

51.

Y. Tong, Y. Liu, Z. Xie, M. Zarinejad, Acta Mater. 56, 1721–1732 (2008)

52.

C.H. Chen, H.K. Wang, S.K. Wu, Intermetallics 64, 78–85 (2015)

53.

Y. Furuya, M. Matsumoto, H.S. Kimura, T. Masumoto, Mater. Sci. Eng., A 147, L7–L12 (1991)

54.

X.Z. Yang, Y. Liaw, Procedia Eng. 36, 292–298 (2012)

55.

C.H. Chen, Y.J. Chen, Scr. Mater. 162, 185–189 (2019)

Titel: Microstructure and Mechanical Properties of (TiZrHf)50(NiCoCu)50 High Entropy Alloys
verfasst von: Chih-Hsuan Chen
Yue-Jin Chen
Jia-Jyun Shen
Publikationsdatum: 26.07.2019
Verlag: The Korean Institute of Metals and Materials
Erschienen in: Metals and Materials International / Ausgabe 5/2020
Print ISSN: 1598-9623
Elektronische ISSN: 2005-4149
DOI: https://doi.org/10.1007/s12540-019-00383-3

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