Uniaxial ring test is a widely used mechanical characterization method for a variety of materials, from industrial elastomers to biological materials. Here we show that the combination of local material compression, bending, and stretching during uniaxial ring test results in a geometry-dependent deformation profile that can introduce systematic errors in the extraction of mechanical parameters. We identify the stress and strain regimes under which stretching dominates and develop a simple image-based analysis approach that eliminates these systematic errors. We rigorously test this approach computationally and experimentally, and demonstrate that we can accurately estimate the sample mechanical properties for a wide range of ring geometrie...
International audienceSimulating the deformations of soft tissues has gained importance in recent ye...
Accurate estimation of mechanical properties of the different atherosclerotic plaque constituents is...
Strain, an important biomechanical factor, occurs at different scales from molecules and cells to ti...
Uniaxial ring test is a widely used mechanical characterization method for a variety of materials, f...
To avoid damage as a consequence of a surgical procedure, it is important to define loading threshol...
For the determination of material parameters, it is a common practice to extract specimens with well...
Introduction: The estimation of the non-linear viscoelastic characteristics of human soft tissues, s...
Motivated by the search for new strategies for fitting a material model, a new approach is explored ...
Biomechanics of artery has been shown to play an important role in the progression of cardiovascular...
From cancer diagnosis to detailed characterization of arterial wall biomechanics, the elastic proper...
In literature a standard protocol to develop an automatic procedure to mechanically characterize sof...
Changes in the mechanical properties of soft tissues may be indicative of disease processes. Medical...
Characterization of the mechanical properties of biological materials is often complicated by small ...
Biaxial testing, planar or extension inflation, is the method of choice to test soft biological tiss...
AbstractMechanical characterisation of soft biological tissues using standard compression or tensile...
International audienceSimulating the deformations of soft tissues has gained importance in recent ye...
Accurate estimation of mechanical properties of the different atherosclerotic plaque constituents is...
Strain, an important biomechanical factor, occurs at different scales from molecules and cells to ti...
Uniaxial ring test is a widely used mechanical characterization method for a variety of materials, f...
To avoid damage as a consequence of a surgical procedure, it is important to define loading threshol...
For the determination of material parameters, it is a common practice to extract specimens with well...
Introduction: The estimation of the non-linear viscoelastic characteristics of human soft tissues, s...
Motivated by the search for new strategies for fitting a material model, a new approach is explored ...
Biomechanics of artery has been shown to play an important role in the progression of cardiovascular...
From cancer diagnosis to detailed characterization of arterial wall biomechanics, the elastic proper...
In literature a standard protocol to develop an automatic procedure to mechanically characterize sof...
Changes in the mechanical properties of soft tissues may be indicative of disease processes. Medical...
Characterization of the mechanical properties of biological materials is often complicated by small ...
Biaxial testing, planar or extension inflation, is the method of choice to test soft biological tiss...
AbstractMechanical characterisation of soft biological tissues using standard compression or tensile...
International audienceSimulating the deformations of soft tissues has gained importance in recent ye...
Accurate estimation of mechanical properties of the different atherosclerotic plaque constituents is...
Strain, an important biomechanical factor, occurs at different scales from molecules and cells to ti...