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2017 | OriginalPaper | Chapter

35. Texture Evolution of a Fine-Grained Mg Alloy at Dynamic Strain Rates

Authors : Christopher S. Meredith, Jeffrey T. Lloyd

Published in: Dynamic Behavior of Materials, Volume 1

Publisher: Springer International Publishing

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Abstract

AMX602 (Mg-6%Al-0.5%Mn-2%Ca) is a high strength Mg alloy that was manufactured by the spinning water atomization process (SWAP) and extruded into a plate geometry. The processing produces an alloy with a weak rolling texture (for Mg) and grains between 0.5 and 5 μm. Quasi-static and dynamic compression experiments were carried out to probe the material’s mechanical behavior in the three processing directions. The tested plate showed deformation mechanism induced anisotropy consistent with what has been observed for other Mg alloys. The texture evolution was measured after loading in the three directions using X-ray diffraction at the Cornell High Energy Synchrotron Source (CHESS). A computationally efficient crystal plasticity model that demarcates twinning, basal slip, and non-basal slip mechanisms was utilized to predict the texture evolution and compared to the experimental texture. The model was able to predict the reorientation of grains associated with twin dominated yielding in the extrusion and transverse directions, and strengthening of the texture associated with slip dominated deformation in the normal direction.

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Mordike, B.L., Ebert, T.: Magnesium properties—applications—potential. Mater. Sci. Eng. A 302, 37–45 (2001)CrossRef

Hono, K., Mendis, C.L., Sasaki, T.T., Oh-ishi, K.: Towards the development of heat-treatable high-strength wrought Mg alloys. Scripta Mat. 63, 710–715 (2010)

Yukutake, E., Kaneko, J., Sugamata, M.: Anisotropy and non-uniformity in plastic behavior of AZ31 magnesium alloy plates. Mater. Trans. 44, 452–457 (2003)CrossRef

Stanford, N., Barnett, M.: The origin of “rare earth” texture development in extruded Mg-based alloys and its effect on tensile ductility. Mater. Sci. Eng. A 496, 399–408 (2008)CrossRef

Agnew, S.R., Duygulu, O: Plastic anisotropy and the role of non-basal slip in magnesium alloy AZ31B. Int. J. Plasticity 21(6), 1161–1193 (2005)

Bohlen, J., Nurnberg, M.R., Senn, J.W., Letzig, D., Agnew, S.R.: The texture and anisotropy of magnesium-zinc-rare earth alloy sheets. Acta Mater. 55, 2101–2112 (2007)

Yukutake, E., Kaneko, J., Sugamata, M.: Anisotropy and non-uniformity in plastic behavior of AZ31 magnesium alloy plates. Mater. Trans. 44, 452–457 (2003)

Barnett, M.: A rationale for the strong dependence of mechanical twinning on grain size. Scripta Mater. 59, 696–698 (2008)

Barnett, M., Keshavarz, Z., Beer, A., Atwell, D.: Influence of grain size on the compressive deformation of wrought Mg-3Al-1Zn. Acta Mater. 52, 5093–5103 (2004)

10.

Chen, Y., Wang, Q., Peng, J., Zhai, C., Ding, W.: Effects of extrusion ratio on the microstructure and mechanical properties of AZ31 Mg alloy. J. Mater. Process Tech. 182, 281–285 (2007)

11.

Iwahashi, Y., Wang, J.T., Horita, Z., Langdon, T.G.: Principle of equal-channel angular pressing for the processing of ultra-fine grained materials. Scripta Mater. 35, 143–146 (1996)

12.

Kondoh, K., Aizawa, T.: Environmentally benign fabricating process of magnesium alloy by cyclical plastic working in solid-state. Mater. Trans. 44, 1276–1283 (2003)

13.

Kondoh, K., Kawabata, K., Oginuma, H.: Mechanical properties and texture of hot extruded magnesium alloys via RCP process in using coarse raw powder magnesium technology 2007. TMS. pp. 433–436 (2007)

14.

Al-Maharbi, M., Karaman, I., Beyerlein, I., Foley, D., Hartwig, K., Kecskes, L., Mauthaudhu, S.: Microstructure, crystallographic texture, and plastic anisotropy evolution in an Mg alloy during equal channel angular extrusion processing. Mater. Sci. Eng. A 528, 7616–7627 (2011)

15.

Foley, D., Al-Maharbi, M., Hartwig, K., Karaman, I., Kecskes, L., Mathaudhu, S.: Grain refinement vs. crystallographic texture: mechanical anisotropy in a magnesium alloy. Scripta Mate. 64(2), 193–196 (2011)

16.

Hammond, V., Mauthaudhu, S., Doherty, K., Walsh, S., Vargas, L., Placzankis, B., Labukas, J., Pepi, M., Trexler, M., Barnett, B., Jones, T., Kecskes, L.: Ultrahigh-strength magnesium alloys for the future force: a final report on the 5-year mission program, 2009–2013. ARL-TR-6788. pp. 1–58 (2014)

17.

Kusy, M., Grgac, P., Behulova, M., Vyrostkova, A., Miglierini, M.: Morphological variants of carbides of solidification origin in the rapidly solidified powder particles of hypereutectic iron alloy. Mater. Sci. Eng. A 375–377, 599–603 (2004)

18.

Rawers, J., Sauer, W., German, R.: Planar solidification of rapidly solidified powders. J. Mater. Sci. Lett. 16, 1327–1329 (1993)

19.

Wright, R.N., Anderson, I.E.: Age-hardening behavior of dynamically consolidated rapidly solidified Cu–2%Zr powder. Mater. Sci. Eng. A 114, 167–172 (1989)

20.

Kawamura, Y., Hayashi, K., Inoue, A., Masumoto, T.: Rapidly solidified powder metallurgy Mg97Zn1Y2 alloys with excellent tensile yield strength above 600 MPa. Mater. Trans. 42, 1172–1176 (2001)

21.

Endo, I., Otsuka, I., Okuno, R., Shintani, A., Yoshino, M., Yagi, M.: Fe-based amorphous soft-magnetic powder produced by spinning water atomization process (SWAP). IEEE Trans. Magnet. 35(5), 3385–3387 (1999)

22.

Yamauchi, I., Ohnaka, I., Kawamoto, S., Fukusako, T.: Hot extrusion of rapidly solidified Al-Si alloy powder by rotating-water-atomization process. Trans. Japan Inst. Met. 27(3), 195–203 (1986)

23.

Ohnaka, I., Yamauchi, I., Kawamoto, S., Fukusako, T.: Production and properties of rapidly solidified Al-4.5%Cu alloy powder by the rotating-water-atomization process. J. Mat. Sci. 20, 2148–2158 (1985)

24.

Matsuura, K., Kudoh, M., Kinoshita, H., Takahishi, H.: Precipitation of Si particles in a super-rapidly solidified Al-Si hypereutectic alloy. Mater. Chem. Phys. 81(1–2), 393–395 (2003)

25.

Kondoh, K., Hamada, E.-S.A., Imai, H., Umeda, J., Jones, T.: Microstructures and mechanical responses of powder metallurgy non-conbustive magnesium extruded alloy by rapid solidification process in mass production. Mater. Design 31, 1540–1546 (2010)

26.

Elsayed, A., Kondoh, K., Imai, H., Umeda, J.: Microstructure and mechanical properties of hot extruded Mg-Al-Mn-Ca alloy produced by rapid solidification powder metallurgy. Mater. Design 31, 2444–2453 (2010)

27.

Elsayed, A., Umeda, J., Kondoh, K.: The texture and anisotropy of hot extruded magnesium alloys fabricated via rapid solidification powder metallurgy. Mater. Design 32, 4590–4597 (2011)

28.

Ayman, E., Junko, U., Katsuyoshi, K.: Application of rapid solidification powder metallurgy to the fabrication of high-strength, high-ductility Mg-Al-Zn-Ca-La alloy through hot extrusion. Acta Mater. 59, 273–282 (2011)

29.

Jones, T., Labukas, J., Placzankis, B., Kondoh, K.: Ballistic and corrosion analysis of new military-grade magnesium alloys AMX602 and ZAXE1711 for armor applications. ARL-TR-5931. pp. 1–50 (2012)

30.

Shen, J., Kondoh, K., Jones, T., Mathaudhu, S., Kecskes, L., Wei, Q.: Effect of strain rate on the mechanical properties of magnesium alloy AMX602. Mater. Sci. Eng. A 649, 338–348 (2016)

31.

ASM Metals Handbook Volume 8: Mechanical Testing and Evaluation)

32.

Wenk, H.R., Lutterotti, L., Vogel, S.: Texture analysis with the new HIPPO TOF diffractometer. Nucl. Instrum. Meth. Phys. Res. Sect. A 515(3), 575–588 (2003)

33.

Graff, S., Brocks, W., Steglich, D.: Yielding of magnesium: from single crystal to polycrystalline aggregates. Int. J. Plast. 23, 1957–1978 (2007)CrossRefMATH

34.

Becker, R., Lloyd, J.: A reduce-order crystal model for HCP metals: application to Mg. Mech. Mater. 98, 98–110 (2016)CrossRef

35.

Meredith, C.S., Lloyd, J.T., Sano, T.: The quasi-static and dynamic response of fine-grained Mg alloy AMX602: An experimental and computational study. Mater. Sci. Eng. A 673, 73–82 (2016)CrossRef

36.

Jain, A., Agnew, S.R.: Modeling the temperature dependent effect of twinning on the behavior of magnesium alloy AZ31B sheet. Mater. Sci. Eng. A 462, 29–36 (2007)

37.

Brown, D.W., Agnew, S.R., Bourke, M.A.M., Holden, T.M., Vogel, S.C., Tomé, C.N.: Internal strain and texture evolution during deformation twinning in magnesium. Mater. Sci. Eng. A 399, 1–12 (2005)CrossRef

38.

Yi, S.B., Davies, C.H.J., Brokmeier, H.G., Bolmaro, R.E., Kainer, K.U., Homeyer, J.: Deformation and texture evolution in AZ31 magnesium alloy during uniaxial loading. Acta Mater. 54, 549–562 (2006)CrossRef

Title: Texture Evolution of a Fine-Grained Mg Alloy at Dynamic Strain Rates
Authors: Christopher S. Meredith
Jeffrey T. Lloyd
Publisher: Springer International Publishing
Book: Dynamic Behavior of Materials, Volume 1
Print ISBN: 978-3-319-41131-6

Electronic ISBN: 978-3-319-41132-3

Copyright Year: 2017
DOI: https://doi.org/10.1007/978-3-319-41132-3_35

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