Add to ORKGWe construct a simple model of an elastic material whose stiffness can be effectively controlled by an appropriately chosen set of microstructural parameters. The model is based on ideas of the scale-dependent continuum description and might play an important role in modelling of muscle tissues in biomechanics
This course develops and applies scaling laws and the methods of continuum mechanics to biomechanica...
The quantitative study of cell mechanics is of paramount interest, since it regulates the behaviour ...
This chapter introduces the fundamental concepts of elasticity and presents the application of conti...
The perfect ability of living tissues to control and adapt their mechanical properties to varying ex...
A mathematical which can describe various materials of a complicated microstructure, particularly sm...
The understanding of morphogenesis in living organisms has been renewed by tremendous progress in ex...
los ingt hurc d fo me addresses scale separation between the macroscopic, tissue-level scale and the...
Modelling and simulation in mechanobiology play an increasingly important role to unravel the comple...
AbstractWe develop a model of an incompressible material which microscopic structure is formed by fl...
AbstractTo describe materials with more complex microstructure, generalization of the standard conti...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
A very important problem of biomechanics consists in finding reasonable mechanical models of studied...
The mechanical properties of nano-structured materials are important field of exploration in the fie...
We propose the two-scale hyperelastic model of a material defined at micro-scale. The microstructure...
This paper deals with modeling the passive behavior of skeletal muscle tissue including certain micr...
This course develops and applies scaling laws and the methods of continuum mechanics to biomechanica...
The quantitative study of cell mechanics is of paramount interest, since it regulates the behaviour ...
This chapter introduces the fundamental concepts of elasticity and presents the application of conti...
The perfect ability of living tissues to control and adapt their mechanical properties to varying ex...
A mathematical which can describe various materials of a complicated microstructure, particularly sm...
The understanding of morphogenesis in living organisms has been renewed by tremendous progress in ex...
los ingt hurc d fo me addresses scale separation between the macroscopic, tissue-level scale and the...
Modelling and simulation in mechanobiology play an increasingly important role to unravel the comple...
AbstractWe develop a model of an incompressible material which microscopic structure is formed by fl...
AbstractTo describe materials with more complex microstructure, generalization of the standard conti...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
A very important problem of biomechanics consists in finding reasonable mechanical models of studied...
The mechanical properties of nano-structured materials are important field of exploration in the fie...
We propose the two-scale hyperelastic model of a material defined at micro-scale. The microstructure...
This paper deals with modeling the passive behavior of skeletal muscle tissue including certain micr...
This course develops and applies scaling laws and the methods of continuum mechanics to biomechanica...
The quantitative study of cell mechanics is of paramount interest, since it regulates the behaviour ...
This chapter introduces the fundamental concepts of elasticity and presents the application of conti...