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Metallurgical and Materials Transactions A

Erschienen in:

29.05.2019

Effect of Main Elements (Zn, Mg, and Cu) on Hot Tearing Susceptibility During Direct-Chill Casting of 7xxx Aluminum Alloys

verfasst von: Y. Li, Z. R. Zhang, Z. Y. Zhao, H. X. Li, L. Katgerman, J. S. Zhang, L. Z. Zhuang

Erschienen in: Metallurgical and Materials Transactions A | Ausgabe 8/2019

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Abstract

New 7xxx aluminum alloys with high alloying contents are being designed, which could induce serious hot tearing defects during direct-chill (DC) casting. Among all factors affecting hot tearing of 7xxx alloys, undoubtedly alloying elements play a significant role. In this study, the effect of main alloying elements (Zn, Mg, and Cu) on hot tearing of grain-refined Al-xZn-yMg-zCu alloys was investigated by a dedicated hot tearing rating apparatus simulating the DC-casting process. It was found that the minimum and maximum hot tearing susceptibilities occur for 4 to 6 and 9 wt pct Zn, respectively, indicating the complicated effect of Zn content. The hot tearing resistance of grain-refined Al-9Zn-yMg-zCu alloys is enhanced with increasing Mg content but is deteriorated with increasing Cu content. This can be attributed to the interaction of the thermal stresses, melt feeding, and final eutectics. The observed tendencies of the main alloying elements on hot tearing were also confirmed for four commercial 7xxx alloys. In addition, both the load value at non-equilibrium solidus and the SKK criterion proposed by Suyitno et al. using measured load developments were found to be good indicators in predicting hot tearing susceptibility. This study can provide a beneficial guide in designing 7xxx alloys considering the potential occurrence of hot cracks beforehand.

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J. Shin, T. Kim, D. Kim, D. Kim, K. Kim, J. Alloys Compd. 2017, vol. 698, pp. 577-590.CrossRef

Y. Li, X. Gao, Z.R. Zhang, W.L. Xiao, H.X. Li, Q. Du, L. Katgerman, J.S. Zhang, L.Z. Zhuang, Metall. Mater. Trans. A 2017, vol. 48, pp. 4744-4754.CrossRef

H. Zhao, F. De Geuser, A. Kwiatkowski da Silva, A. Szczepaniak, B. Gault, D. Ponge, D. Raabe, Acta Mater. 2018, vol. 156, pp. 318-329.CrossRef

D. Gildemeister, Effects of microstructure on hot cracking behavior in Al-Zn-Mg-Cu alloys, TMS Annual Meeting & Exhibition, Springer, Cham, 2018, pp. 1097-1104.

K. Ellingsen, Q. Du, M. M’Hamdi, B.E. Gihleengen, R. Ledal, K.O. Tveito, A. Håkonsen, Experimental study and numerical analysis of cracking during DC casting of large dimension 7075 aluminium billets, TMS Annual Meeting & Exhibition, Springer, Cham, 2018, pp. 895-900.

J. Zuo, L. Hou, J. Shi, H. Cui, L. Zhuang, J. Zhang, J. Alloys Compd. 2017, vol. 708, pp. 1131-1140.CrossRef

Q.L. Bai, J.C. Liu, H.X. Li, Q. Du, L. Katgerman, J.S. Zhang, L.Z. Zhuang, Mater. Sci. Technol. 2016, vol. 32, pp. 846-854.CrossRef

D.G. Eskin, Physical metallurgy of direct chill casting of aluminum alloys, CRC Press, Boca Raton, 2008.CrossRef

S. Benum, D. Mortensen, H. Fjær, H.-G. Øverlie, O. Reiso, On the Mechanism of Surface Cracking in DC Cast 7XXX and 6XXX Extrusion Ingot Alloys, in: J.F. Grandfield, D.G. Eskin (Eds.), Essential Readings in Light Metals: Volume 3 Cast Shop for Aluminum Production, Springer International Publishing, Cham, 2016, pp. 887-894.CrossRef

10.

Q.L. Bai, J.C. Liu, Y. Li, H.X. Li, Q. Du, J.S. Zhang, L.Z. Zhuang, Hot tearing evaluation and contraction behaviors of four AA7xxx alloys, Mater. Sci. Forum, 2015, vol. 28, pp. 21-26.CrossRef

11.

Q.L. Bai, Y. Li, H.X. Li, Q. Du, J.S. Zhang, L.Z. Zhuang, Metall. Mater. Trans. A 2016, vol. 47, pp. 4080-4091.CrossRef

12.

Y. Li, Q. Bai, J. Liu, H. Li, Q. Du, J. Zhang, L. Zhuang, Metall. Mater. Trans. A 2016, vol. 47, pp. 4024-4037.CrossRef

13.

D. Warrington, D.G. McCartney, Cast Metals 1991, vol. 3, pp. 202-208.CrossRef

14.

D.G. Eskin, S. Suyitno, L. Katgerman, Prog. Mater Sci. 2004, vol. 49, pp. 629-711.CrossRef

15.

Aluminum Association (2009) International alloy designations and chemical composition limits for wrought aluminum and wrought aluminum alloys. Aluminum Association, Arlington.

16.

Suyitno, W. Kool, L. Katgerman, Metall. Mater. Trans. A 2005, vol. 36, pp. 1537-1546.CrossRef

17.

D.G. Eskin, S. Suyitno, J.F. Mooney, L. Katgerman, Metall. Mater. Trans. A 2004, vol. 35, pp. 1325-1335.CrossRef

18.

Z. Wang, Y. Huang, A. Srinivasan, Z. Liu, F. Beckmann, K.U. Kainer, N. Hort, Mater. Des. 2013, vol. 47, pp. 90-100.CrossRef

19.

S. Li, K. Sadayappan, D. Apelian, Metall. Mater. Trans. B 2013, vol. 44, pp. 614-623.CrossRef

20.

G. Cao, I. Haygood, S. Kou, Metall. Mater. Trans. A 2010, vol. 41, pp. 2139-2150.CrossRef

21.

J.-M. Drezet, B. Mireux, G. Kurtuldu, O. Magdysyuk, M. Drakopoulos, Metall. Mater. Trans. A 2015, vol. 46, pp. 4183-4190.CrossRef

22.

S. Instone, D. John, J. Grandfield, Int. J. Cast Met. Res. 2000, vol. 12, pp. 441-456.CrossRef

23.

M. Pekguleryuz, X. Li, C. Aliravci, Metall. Mater. Trans. A 2009, vol. 40, pp. 1436-1456.CrossRef

24.

A. Stangeland, A. Mo, M. M’Hamdi, D. Viano, C. Davidson, Metall. Mater. Trans. A 2006, vol. 37, pp. 705-714.CrossRef

25.

D. Viano, D. StJohn, J. Grandfield, C. Cáceres, Hot tearing in aluminium-copper alloys, Springer, Cham2016.CrossRef

26.

J. Mitchell, S. Cockcroft, D. Viano, C. Davidson, D. StJohn, Metall. Mater. Trans. A 2007, vol. 38, pp. 2503-2512.CrossRef

27.

L. Sweet, J. Taylor, M. Easton, M. Couper, N. Parson, Chemical additions to reduce hot tearing in the cast house Light Metals, Springer, Cham, 2012, pp. 1133-1138.

28.

M.A. Easton, H. Wang, J. Grandfield, C.J. Davidson, D.H. StJohn, L.D. Sweet, M.J. Couper, Metall. Mater. Trans. A 2012, vol. 43, pp. 3227-3238.CrossRef

29.

L. Sweet, M.A. Easton, J.A. Taylor, J.F. Grandfield, C.J. Davidson, L. Lu, M.J. Couper, D.H. StJohn, Metall. Mater. Trans. A 2013, vol. 44, pp. 5396-5407.CrossRef

30.

M. M’Hamdi, A. Mo, H.G. Fjær, Metall. Mater. Trans. A 2006, vol. 37, pp. 3069-3083.CrossRef

31.

Suyitno, W. Kool, L. Katgerman, Metall. Mater. Trans. A 2009, vol. 40, pp. 2388-2400.CrossRef

32.

M. Rappaz, J.-M. Drezet, M. Gremaud, Metall. Mater. Trans. A 1999, vol. 30, pp. 449-455.CrossRef

33.

L. Zhang, D.G. Eskin, M. Lalpoor, L. Katgerman, Mater. Sci. Eng. A, 2010, vol. 527, pp. 3264-3270.CrossRef

34.

A. Dinsdale, P. Quested, J Mater Sci 2004, vol. 39, pp. 7221-7228.CrossRef

35.

A.L. Greer, A.M. Bunn, A. Tronche, P.V. Evans, D.J. Bristow, Acta Mater. 2000, vol. 48, pp. 2823-2835.CrossRef

36.

M. Easton, H. Wang, J. Grandfield, D. John, E. Sweet, Mater. Forum 2004, vol. 28, pp. 224-229.

37.

S. Vernède, J.A. Dantzig, M. Rappaz, Acta Mater. 2009, vol. 57, pp. 1554-1569.CrossRef

38.

M. Sistaninia, S. Terzi, A.B. Phillion, J.M. Drezet, M. Rappaz, Acta Mater. 2013, vol. 61, pp. 3831-3841.CrossRef

39.

S. Geng, P. Jiang, X. Shao, G. Mi, H. Wu, Y. Ai, C. Wang, C. Han, R. Chen, W. Liu, Y. Zhang, Acta Mater. 2018, vol. 160, pp. 85-96.CrossRef

40.

J.F. Grandfield, C.J. Davidson, J.A. Taylor (2000) Contin Cast, 24, pp. 205-210.

Titel: Effect of Main Elements (Zn, Mg, and Cu) on Hot Tearing Susceptibility During Direct-Chill Casting of 7xxx Aluminum Alloys
verfasst von: Y. Li
Z. R. Zhang
Z. Y. Zhao
H. X. Li
L. Katgerman
J. S. Zhang
L. Z. Zhuang
Publikationsdatum: 29.05.2019
Verlag: Springer US
Erschienen in: Metallurgical and Materials Transactions A / Ausgabe 8/2019
Print ISSN: 1073-5623
Elektronische ISSN: 1543-1940
DOI: https://doi.org/10.1007/s11661-019-05268-z

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