A three-dimensional constitutive model for muscle and tendon tissues is developed. Muscle and tendon are considered as composite materials that consist of fibers and the connective tissues and biofluids surrounding the fibers. The model is nonlinear, rate dependent, and anisotropic due to the presence of the fibers. Both the active and passive behaviors of the muscle are considered. The muscle fiber stress depends on the strain (length), strain-rate (velocity), and the activation level of the muscle, whereas the tendon fiber exhibits only passive behavior and the stress depends only on the strain. Multiple fiber directions are modeled via superposition. A methodology for the numerical implementation of the constitutive model in a general-pu...
To describe the mechanical behaviour of biological tissues and transport processes in biological tis...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
International audienceMechanical properties of muscle tissue are crucial in biomechanical modeling o...
This paper presents a three dimensional computational model to simulate the mechanical behavior of t...
Biological soft tissue is a complex engineering material whose mechanical response is intimately con...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
This paper aims to highlight the need for a refined tendon model to reproduce the main mechanical fe...
AbstractThis paper presents a three dimensional computational model to simulate the mechanical behav...
While much work has previously been done in the modeling of skeletal muscle, no model has, to date, ...
An implicit nonlinear finite element model for simulating biological muscle mechanics is developed. ...
Recent advances in engineered muscle tissue attached to a synthetic substrate motivates the developm...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Finite elasticity theory has been commonly used to model skeletal muscle. A very large range of hete...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
To describe the mechanical behaviour of biological tissues and transport processes in biological tis...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
International audienceMechanical properties of muscle tissue are crucial in biomechanical modeling o...
This paper presents a three dimensional computational model to simulate the mechanical behavior of t...
Biological soft tissue is a complex engineering material whose mechanical response is intimately con...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
This paper aims to highlight the need for a refined tendon model to reproduce the main mechanical fe...
AbstractThis paper presents a three dimensional computational model to simulate the mechanical behav...
While much work has previously been done in the modeling of skeletal muscle, no model has, to date, ...
An implicit nonlinear finite element model for simulating biological muscle mechanics is developed. ...
Recent advances in engineered muscle tissue attached to a synthetic substrate motivates the developm...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Finite elasticity theory has been commonly used to model skeletal muscle. A very large range of hete...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
To describe the mechanical behaviour of biological tissues and transport processes in biological tis...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...