. . "Gultov\u00E1, Eva" . "978-80-7372-648-5" . . "A pseudo-elastic model for the Mullins effect in human aorta"@en . . "Liberec" . "Horn\u00FD, Luk\u00E1\u0161" . "RIV/68407700:21220/10:00170693" . . "2010-10-04+02:00"^^ . "244894" . . "Sychrov" . . . "Technick\u00E1 univerzita v Liberci" . . . "4"^^ . . . . "4"^^ . . . "A pseudo-elastic model for the Mullins effect in human aorta" . . "\u017Ditn\u00FD, Rudolf" . "A pseudo-elastic model for the Mullins effect in human aorta"@en . . "This paper is focused on developing the theory which describes the Mullins effect in human aorta. Uni-axial cyclic tensile tests were performed. In order to account anisotropy of arterial tissue, longitudinally as well as circumferentially resected samples of human aorta were tested. Each artery sample underwent repeated (four times) loading and unloading to a certain value of maximum stretch. Arterial tissue was considered as hyperelastic, transversally isotropic, incompressible material. A strain energy function was adopted in the limiting fiber extensibility form. Description of material response, followed by material stress softening in the repeated cycles, is based upon pseudo-elastic constitutive model proposed by Dorfmann and Ogden. This theory was developed using anisotropic form of the softening variable. The model with estimated parameters successfully fit experimental data and is suitable for application in biomedicine." . "6"^^ . "P(GA106/08/0557), S, Z(MSM6840770012)" . "A pseudo-elastic model for the Mullins effect in human aorta" . . . "This paper is focused on developing the theory which describes the Mullins effect in human aorta. Uni-axial cyclic tensile tests were performed. In order to account anisotropy of arterial tissue, longitudinally as well as circumferentially resected samples of human aorta were tested. Each artery sample underwent repeated (four times) loading and unloading to a certain value of maximum stretch. Arterial tissue was considered as hyperelastic, transversally isotropic, incompressible material. A strain energy function was adopted in the limiting fiber extensibility form. Description of material response, followed by material stress softening in the repeated cycles, is based upon pseudo-elastic constitutive model proposed by Dorfmann and Ogden. This theory was developed using anisotropic form of the softening variable. The model with estimated parameters successfully fit experimental data and is suitable for application in biomedicine."@en . "Aorta; Mullins effect; Anisotropy; Stress softening; Limiting fiber extensibility; Pseudo-elasticity"@en . "Human Biomechanics 2010" . . "[76CA1DA4CD0F]" . . . "Chlup, Hynek" . "RIV/68407700:21220/10:00170693!RIV11-GA0-21220___" . "21220" . . . .