. . "Bimaterial interface, Crack penetration and debond, Split singularities, T-stress, Matched asymptotic expansion, Finite fracture mechanics."@en . "26210" . "Crack perpendicularly impinging the bimaterial interface and a crack arbitrary inclined to the interface are considered for a wide range of elastically mismatched materials. In the former case, the effect of the T-stress is investigated, in the latter case the combined effect of a weaker singularity and stronger singularity is examined for a range of crack/interface configurations. For the crack arbitrary inclined to the interface, FE solution of near-crack stress\u2013displacement field obtained using a very fine mesh is compared with analytical singular field considering two leading terms of asymptotic expansion. As a side result it is found that the domain of singular field dominance for an arbitrary inclined crack increases with decreasing angle between the crack and the interface." . . "\u0160eve\u010Dek, Old\u0159ich" . . . . . "Engineering Fracture Mechanics" . "[6DFFEB671008]" . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . . "Kotoul, Michal" . "1" . "3"^^ . . "RIV/00216305:26210/12:PU97718!RIV13-GA0-26210___" . "3"^^ . . "133082" . . . "80" . "10.1016/j.engfracmech.2011.11.006" . "RIV/00216305:26210/12:PU97718" . "000301630300004" . . "Effect of higher order asymptotic terms on the competition between crack penetration and debond at a bimaterial interface between aligned orthotropic materials"@en . . "Effect of higher order asymptotic terms on the competition between crack penetration and debond at a bimaterial interface between aligned orthotropic materials"@en . . "0013-7944" . . "P(GA101/09/1821)" . . "Effect of higher order asymptotic terms on the competition between crack penetration and debond at a bimaterial interface between aligned orthotropic materials" . . . "Effect of higher order asymptotic terms on the competition between crack penetration and debond at a bimaterial interface between aligned orthotropic materials" . "24"^^ . . . "Profant, Tom\u00E1\u0161" . "Crack perpendicularly impinging the bimaterial interface and a crack arbitrary inclined to the interface are considered for a wide range of elastically mismatched materials. In the former case, the effect of the T-stress is investigated, in the latter case the combined effect of a weaker singularity and stronger singularity is examined for a range of crack/interface configurations. For the crack arbitrary inclined to the interface, FE solution of near-crack stress\u2013displacement field obtained using a very fine mesh is compared with analytical singular field considering two leading terms of asymptotic expansion. As a side result it is found that the domain of singular field dominance for an arbitrary inclined crack increases with decreasing angle between the crack and the interface."@en .