Add to ORKG2012 IRCOBI Conference Proceedings, DUBLIN, IRELANDE, 12-/09/2012 - 14/09/2012The mechanical properties of the aortic wall are important to develop a biofidelic finite element model. In this study, the influence of the location on the deformation characteristics along the descending aorta was investigated on 53 samples of pig aortic specimens. Uniaxial tensile tests up to failure were carried out at a strain rate of 68 s?1 in the longitudinal direction. Cauchy stress?true strain relationships were determined and compared for 4 different locations from the aortic arch to the abdominal aorta. Digital Image Correlation (DIC) was used to determine the Green?Lagrange full field strain. The experiments showed that the Cauchy stress vs. true strai...
The overall objective of this thesis is to provide a new understanding of the degree of biomechanica...
Aorta is the largest blood vessel in the human body that gradually tapers from descending thoracic a...
Abstract Background Biomechanical factors influence stress in the aortic wall. The aim of this study...
2012 IRCOBI Conference Proceedings, DUBLIN, IRELANDE, 12-/09/2012 - 14/09/2012The mechanical propert...
International audienceOne of the aims of this work is to develop an original custom built biaxial se...
Background: Aortic dissection (AD) is a common pathology and challenging clinical problem. A better ...
The present study investigates effects of surrounding tissues and non-uniform wall thickness on the ...
Computational modeling of arterial mechanics continues to progress, even to the point of allowing th...
International audienceAn aortic aneurism is a localized dilation of the aorta in a weakened area [1,...
In this paper, we hypothesize that the biaxial mechanical properties of the aorta may be dependent o...
Charles University in Prague, Faculty of Pharmacy in Hradec Králové Department of Department of Biop...
International audienceIn this study the digital image correlation technique is used for characterizi...
International audiencehe present study aims at investigating biomechanical failure behaviour of huma...
Characterizing the physical properties of the aortic wall is essential to understanding the causes o...
Determination of correlations between transmural mechanical and morphological properties of aorta wo...
The overall objective of this thesis is to provide a new understanding of the degree of biomechanica...
Aorta is the largest blood vessel in the human body that gradually tapers from descending thoracic a...
Abstract Background Biomechanical factors influence stress in the aortic wall. The aim of this study...
2012 IRCOBI Conference Proceedings, DUBLIN, IRELANDE, 12-/09/2012 - 14/09/2012The mechanical propert...
International audienceOne of the aims of this work is to develop an original custom built biaxial se...
Background: Aortic dissection (AD) is a common pathology and challenging clinical problem. A better ...
The present study investigates effects of surrounding tissues and non-uniform wall thickness on the ...
Computational modeling of arterial mechanics continues to progress, even to the point of allowing th...
International audienceAn aortic aneurism is a localized dilation of the aorta in a weakened area [1,...
In this paper, we hypothesize that the biaxial mechanical properties of the aorta may be dependent o...
Charles University in Prague, Faculty of Pharmacy in Hradec Králové Department of Department of Biop...
International audienceIn this study the digital image correlation technique is used for characterizi...
International audiencehe present study aims at investigating biomechanical failure behaviour of huma...
Characterizing the physical properties of the aortic wall is essential to understanding the causes o...
Determination of correlations between transmural mechanical and morphological properties of aorta wo...
The overall objective of this thesis is to provide a new understanding of the degree of biomechanica...
Aorta is the largest blood vessel in the human body that gradually tapers from descending thoracic a...
Abstract Background Biomechanical factors influence stress in the aortic wall. The aim of this study...