Add to ORKGThe purpose of this study is to investigate the effect of anisotropy of cortical bone tissue on measurement of properties such as direction-dependent moduli and hardness. Methods: An advanced three-dimensional finite element model of microindentation was developed. Different modelling schemes were considered to account for anisotropy of elastic or/and plastic regimes. The elastic anisotropic behaviour was modelled employing an elasticity tensor, and Hill’s criteria were used to represent the direction-dependent post-yield behaviour. The Oliver–Pharr method was used in the data analysis. Results: A decrease in the value of the transverse elasticity modulus resulted in the increased material’s indentation modulus measured in the longitudinal ...
International audienceThe mechanical behavior of the cortical bone in nanoindentation is a complicat...
Cortical bone is an inhomogeneous and anisotropic tissue subjected to large loads during typical dai...
When using nanoindentation to measure the mechanical properties of biological tissues, viscoelastic ...
Anisotropy is one of the most peculiar aspects of cortical bone mechanical behaviour, and the numeri...
In this work, a finite element model was developed for the numerical simulation of nanoindentation t...
Studies investigating micromechanical properties in mouse cortical bone often solely focus on the me...
Studies investigating micromechanical properties in mouse cortical bone often solely focus on the me...
Division of Biomechanics participates in a project together with Department of Cancer Research and M...
Mechanical intrinsic anisotropy and architectural arrangements of building blocks of lamellar bone c...
Anisotropy is one of the most peculiar aspects of cortical bone mechanics; however, its anisotropic ...
International audienceThis work consists of the validation of a novel approach to estimate the local...
A new format of anisotropic gradient elasticity is formulated and implemented to simulate stress con...
In this chapter, mechanical behaviours of a unique type of composite material – cortical bone tissue...
International audienceThe mechanical behavior of the cortical bone in nanoindentation is a complicat...
Cortical bone is an inhomogeneous and anisotropic tissue subjected to large loads during typical dai...
When using nanoindentation to measure the mechanical properties of biological tissues, viscoelastic ...
Anisotropy is one of the most peculiar aspects of cortical bone mechanical behaviour, and the numeri...
In this work, a finite element model was developed for the numerical simulation of nanoindentation t...
Studies investigating micromechanical properties in mouse cortical bone often solely focus on the me...
Studies investigating micromechanical properties in mouse cortical bone often solely focus on the me...
Division of Biomechanics participates in a project together with Department of Cancer Research and M...
Mechanical intrinsic anisotropy and architectural arrangements of building blocks of lamellar bone c...
Anisotropy is one of the most peculiar aspects of cortical bone mechanics; however, its anisotropic ...
International audienceThis work consists of the validation of a novel approach to estimate the local...
A new format of anisotropic gradient elasticity is formulated and implemented to simulate stress con...
In this chapter, mechanical behaviours of a unique type of composite material – cortical bone tissue...
International audienceThe mechanical behavior of the cortical bone in nanoindentation is a complicat...
Cortical bone is an inhomogeneous and anisotropic tissue subjected to large loads during typical dai...
When using nanoindentation to measure the mechanical properties of biological tissues, viscoelastic ...