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Deformation twinning in hexagonal materials

Published online by Cambridge University Press:  06 April 2016

Xiaozhou Liao
Affiliation:
School of Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney, Australia; [email protected]
Jian Wang
Affiliation:
Mechanical and Materials Engineering, University of Nebraska–Lincoln, USA; [email protected]
Jianfeng Nie
Affiliation:
Department of Materials Science and Engineering, Monash University, Australia; [email protected]
Yanyao Jiang
Affiliation:
Mechanical Engineering Department, University of Nevada, Reno, USA; [email protected]
Peidong Wu
Affiliation:
Department of Mechanical Engineering, McMaster University, Canada; [email protected]
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Abstract

Due to the scarcity of “easy slip” systems in hexagonal materials with a hexagonal close-packed structure (hcp), deformation twinning plays a crucial role in determining mechanical properties and texture evolution. In this article, we highlight the current understanding of mechanisms and mechanics of the twinning system $\left\{ {10\bar 12} \right\}\left\langle {10\bar 1\bar 1} \right\rangle $, which is commonly activated in all hexagonal materials for nucleation and propagation of deformation twins, twin–twin interactions, solute segregation at twin boundaries, and the development of constitutive models that account for the fundamental mechanisms of twinning/detwinning. Future directions such as characterizing the three-dimensional shapes of twins, the influence of solute atoms on twin propagation, and the influence of twin–twin junctions on mechanical properties of the hexagonal materials are discussed.

Type
Research Article
Copyright
Copyright © Materials Research Society 2016 

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References

Pollock, T.M., Science 328, 986 (2010).CrossRefGoogle ScholarPubMed
Hayden, H.W., Moffatt, W.G., Wulff, J., The Structure and Properties of Materials, Vol. III, Mechanical Behavior (Wiley, New York, 1965).Google Scholar
Christian, J.W., Mahajan, S., Prog. Mater. Sci. 39, 1 (1995).Google Scholar
Yu, Q., Jiang, Y., Wang, J., Scr. Mater. 96, 41 (2015).Google Scholar
Kumar, A., Wang, J., Tomé, C.N., Acta Mater. 85, 144 (2015).Google Scholar
Tomé, C.N., Beyerlein, I.J., Wang, J., McCabe, R.J., JOM 63 (3), 19 (2011).Google Scholar
Wang, L., Eisenlohr, P., Yang, Y., Bieler, T.R., Crimp, M.A., Scr. Mater. 63, 827 (2010).Google Scholar
Nie, J.F., Zhu, Y.M., Liu, J.Z., Fang, X.Y., Science 340, 957 (2013).Google Scholar
Yu, Q., Wang, J., Jiang, Y., McCabe, R.J., Li, N., Tomé, C.N., Acta Mater. 77, 28 (2014).CrossRefGoogle Scholar
Wang, J., Hirth, J.P., Tomé, C.N., Acta Mater. 57, 5521 (2009).CrossRefGoogle Scholar
Beyerlein, I.J., Capolungo, L., Marshall, P.E., McCabe, R.J., Tomé, C.N., Philos. Mag. 90, 2161 (2010).Google Scholar
Wang, J., Beyerlein, I.J., Model. Simul. Mater. Sci. Eng. 20, 24002 (2012).Google Scholar
Wang, J., Beyerlein, I.J., Tomé, C.N., Int. J. Plast. 56, 156 (2014).CrossRefGoogle Scholar
Wang, J., Yadav, S.K., Hirth, J.P., Tomé, C.N., Beyerlein, I.J., Mater. Res. Lett. 1, 126 (2013).Google Scholar
Wang, J., Yu, Q., Jiang, Y., Beyerlein, I.J., JOM 66 (1), 95 (2014).CrossRefGoogle Scholar
Wang, J., Liu, L., Tomé, C.N., Mao, S.X., Gong, S.K., Mater. Res. Lett. 1, 81 (2013).CrossRefGoogle Scholar
Zhang, X.Y., Li, B., Wu, X.L., Zhu, Y.T., Ma, Q., Liu, Q., Wang, P.T., Horsetemeyer, M.F., Scr. Mater. 67, 862 (2012).Google Scholar
Tu, J., Zhang, X., Wang, J., Sun, Q., Liu, Q., Tomé, C.N., Appl. Phys. Lett. 103, 051903 (2013).CrossRefGoogle Scholar
El Kadiri, H., Barrett, C.D., Wang, J., Tomé, C.N., Acta Mater. 85, 354 (2015).Google Scholar
Barrett, C.D., El Kadiri, H., Acta Mater. 63, 1 (2014).CrossRefGoogle Scholar
Ostapovets, A., Serra, A., Philos. Mag. 94, 2827 (2014).Google Scholar
Liu, B.Y., Wan, L., Wang, J., Ma, E., Shan, Z., Scr. Mater. 100, 86 (2015).CrossRefGoogle Scholar
Liu, B.Y., Wang, J., Li, B., Lu, L., Zhang, X.Y., Shan, Z.W., Li, J., Jia, C.L., Sun, J., Ma, E., Nat. Commun. 5, 3297 (2014).Google Scholar
Asaro, R.J., Needleman, A., Acta Metall. 33, 923 (1985).CrossRefGoogle Scholar
Van Houtte, P., Acta Metall. 26, 591 (1978).CrossRefGoogle Scholar
Tomé, C.N., Lebensohn, R.A., Kocks, U.K., Acta Metall. Mater. 39, 2667 (1991).Google Scholar
Lebensohn, R.A., Tomé, C.N., Acta Metall. Mater. 41, 2611 (1993).Google Scholar
Proust, G., Tomé, C.N., Kaschner, G.C., Acta Mater. 55, 2137 (2007).CrossRefGoogle Scholar
Beyerlein, I.J., Tomé, C.N., Proc. R. Soc. Lond. 466, 2517 (2010).Google Scholar
Niezgoda, S.R., Kanjarla, A.K., Beyerlein, I.J., Tomé, C.N., Int. J. Plast. 56, 119 (2014).CrossRefGoogle Scholar
Wang, H., Wu, P.D., Tomé, C.N., Huang, Y., J. Mech. Phys. Solids 58, 594 (2010).Google Scholar
Wang, H., Wu, P.D., Tomé, C.N., Wang, J., Mater. Sci. Eng. A 555, 93 (2012).Google Scholar
Wang, H., Wu, P.D., Wang, J., Tomé, C.N., Int. J. Plast. 49, 36 (2013).Google Scholar
Wu, W., Qiao, H., An, K., Guo, X.Q., Wu, P.D., Liaw, P.K., Int. J. Plast. 62, 105 (2014).CrossRefGoogle Scholar
Guo, X.Q., Wu, W., Wu, P.D., Qiao, H., An, K., Liaw, P.K., Scr. Mater. 69, 319 (2013).CrossRefGoogle Scholar
Lee, S.Y., Wang, H., Gharghouri, M.A., Nayyeri, G., Woo, W., Shin, E., Wu, P.D., Poole, W.J., Wu, W., An, K., Acta Mater. 73, 139 (2014).Google Scholar
Qiao, H., Agnew, S.R., Wu, P.D., Int. J. Plast. 65, 61 (2015).Google Scholar
Wu, P.D., Guo, X.Q., Qiao, H., Lloyd, D.J., Mater. Sci. Eng. A A625, 140 (2015).Google Scholar
Reed-Hill, R., Buchanan, E., Acta Metall. 11, 73 (1963).CrossRefGoogle Scholar
Jiang, L., Jonas, J., Luo, A., Sachdev, A., Godet, S., Mater. Sci. Eng. A 445–446, 302 (2007).Google Scholar
Oppedal, A.L., El Kadiri, H., Tomé, C.N., Kaschner, G.C., Vogel, S.C., Baird, J.C., Horstemeyer, M.F., Int. J. Plast. 30–31, 41 (2012).CrossRefGoogle Scholar
El Kadiri, H., Kapil, J., Oppedal, A.L., Hector, L.G., Agnew, S.R., Cherkaoui, M., Vogel, S.C., Acta Mater. 61, 3549 (2013).Google Scholar
Yu, Q., Wang, J., Jiang, Y., McCabe, R.J., Tomé, C.N., Mater. Res. Lett. 2, 82 (2013).CrossRefGoogle Scholar
Yu, Q., Wang, J., Jiang, Y., McCabe, R.J., Li, N., Tomé, C.N., Acta Mater. 77, 28 (2014).Google Scholar
Leyson, G.P.M., Hector, L.G. Jr., Curtin, W.A., Acta Mater. 60, 5197 (2012).CrossRefGoogle Scholar
Yasi, J.A., Hector, L.G., Trinkle, D.R., Acta Mater. 58, 5704 (2010).CrossRefGoogle Scholar