Boundary Element Analysis of Anisotropic Thermomagnetoelectroelastic Solids with 3D Shell-Like Inclusions

1. Aliabadi M.H. (1997) Boundary element formulations in fracture mechanics, Applied Mechanics Review, 50, 83–96.10.1115/1.3101690Search in Google Scholar

2. Dunn M.L. (1993) Micromechanics of coupled electroelastic composites: effective thermal expansion and pyroelectric coefficients, J Appl Phys, 73, 5131–5140.10.1063/1.353787Search in Google Scholar

3. Muñoz-Reja M.M., Buroni F.C., Sáez A., García-Sánchez F. (2016) 3D explicit-BEM fracture analysis for materials with anisotropic multifield coupling, Applied Mathematical Modelling, 40, 2897–2912.10.1016/j.apm.2015.09.079Search in Google Scholar

4. Mykhas’kiv V.V., Khay O.M., Zhang Ch., Bostrom A. (2010) Effective dynamic properties of 3D composite materials containing rigid penny-shaped inclusions, Waves in Random and Complex Media, 20(3), 491–510.10.1080/17455030.2010.490859Search in Google Scholar

5. Pan E., Yuan F.G. (2000) Boundary element analysis of three-dimensional cracks in anisotropic solids, Int. J. Numer. Meth. Engng., 48, 211–237.Search in Google Scholar

6. Pasternak Ia., Pasternak R., Pasternak V., Sulym H. (2017) Boundary element analysis of 3D cracks in anisotropic thermomagnetoelectroelastic solids, Engineering Analysis with Boundary Elements, 74, 70–78.10.1016/j.enganabound.2016.10.009Search in Google Scholar

7. Pasternak Ia., Pasternak R., Sulym H. (2014) Temperature field and heat flux that do not induce stress and electric displacement in a free thermoelectroelastic anisotropic solid, Mechanics Research Communications, 57, 40–43.10.1016/j.mechrescom.2014.02.004DOI öffnenSearch in Google Scholar

8. Rungamornrat J., Phongtinnaboot W., Wijeyewickrema A.C. (2015) Analysis of cracks in 3D piezoelectric media with various electrical boundary conditions, International Journal of Fracture, 192, 133–153.10.1007/s10704-015-9991-7Search in Google Scholar

9. Selvadurai A.P.S. (2000) An inclusion at a bi-material elastic interface, Journal of Engineering Mathematics, 37, 155–170.10.1023/A:1004782110718Search in Google Scholar

10. Selvadurai A.P.S. (2002) Mechanics of a rigid circular disc bonded to a cracked elastic half-space, Int. J. of Solids and Structures, 39, 6035–6053.10.1016/S0020-7683(02)00473-0Search in Google Scholar

11. Sulym H.T. (2007) Bases of mathematical theory of thermoelastic equilibrium of deformable solids with thin inclusions, Research and Publishing center of NTSh, Lviv, (in Ukrainian).Search in Google Scholar

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