13th International Conference on Fracture June 16–21, 2013, Beijing, China -10- [7] P. Bak, Phenomenological theory of icosahedral incommensurate (quasiperiodic) order in Mn-Al alloys. Phys Rev Lett 54 (1985) 1517-1519. [8] T.C. Lubensky, S. Ramaswamy, J. Joner, Hydrodynamics of icosahedral quasicrystals. Phys Rev B 32 (1985) 7444-7452. [9] S.B. Rochal, V.L. Lorman, Minimal model of the phonon-phason dynamics on icosahedral quasicrystals and its application for the problem of internal friction in the Ni-AlPdMn alloys. Phys Rev B 66 (2002) 144204. [10] A.Y. Zhu, T.Y. Fan, Dynamic crack propagation in a decagonal Al-Ni-Co quasicrystal. J Phys: Condens Matter 20 (2008) 295217. [11] T.Y. Fan, Z.Y. Tang, W.Q. Chen, Theory of linear, nonlinear and dynamic fracture for quasicrystals. Engn Fracture Mech 82 (2012) 185-194. [12] T.Y. Fan, Mathematical Theory of Elasticity of Quasicrystals and its Applications, Springer, Beijing, 2011. [13] J. Sladek, V. Sladek, Ch. Zhang, M. Wünsche, Crack analysis in piezoelectric solids with energetically consistent boundary conditions by the MLPG. CMES-Computer Modelling in Engineering & Sciences 68 (2010) 185-220. [14] J. Sladek, V. Sladek, S. Krahulec, E. Pan, Enhancement of the magnetoelectric coefficient in functionally graded multiferroic composites. J Intell Mat Syst Struct 23 (2012) 1644-1653. [15] J.C. Houbolt, A recurrence matrix solution for the dynamic response of elastic aircraft. Journal of Aeronautical Sciences 17 (1950) 371-376. [16] S.N. Atluri, The Meshless Method, (MLPG) for Domain & BIE Discretizations, Tech Science Press, Encino, 2004. [17] X.F. Li, T.Y. Fan, Y.F. Sun, A decagonal quasicrystal with a Griffith crack. Philosophical Magazine A 79 (1999) 1943-1952.
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