This paper reports the biaxial tensile mechanical properties of the envelope material through experimental and constitutive models. First, the biaxial tensile failure tests of the envelope material with different stress ratio in warp and weft directions are carried out. Then, based on fiber-reinforced continuum mechanics theory, an anisotropic hyperelastic constitutive model on envelope material with different stress ratio is developed. A strain energy function that characterizes the anisotropic behavior of the envelope material is decomposed into three parts: fiber, matrix and fiber–fiber interaction. The fiber–matrix interaction is eliminated in this model. A new simple model for fiber–fiber interaction with different st...
The tensile behaviour of brittle materials can be enhanced by fibres. The cracking stress may increa...
ABSTRACT: A numerical constitutive model for a single layer of fiber-reinforced composite laminates,...
Based on the invariant theory of continuum mechanics by Spencer, the strain energy depends on deform...
This paper reports the biaxial tensile mechanical properties of the envelope material through experi...
Based on fiber reinforced continuum mechanics theory, a simple hyperelastic constitutive model is de...
ABSTRACT: Based on fiber reinforced continuum mechanics theory, a simple hyperelastic constitutive m...
In the present contribution we propose a generalized hyperelastic model for fiber-reinforced structu...
This work defines an incompressible, hyperelastic theory of anisotropic soft materials at finite str...
This paper presents an improved constitutive model having application in finite element analysis of ...
This paper presents the Comsol Multiphysics implementation of anisotropic hyperelastic material mode...
AbstractAn anisotropic elasto-plastic constitutive model of paper material is presented. It is formu...
International audienceThe main goal of this study is to propose a practical application of a new fam...
International audienceConstitutive laws are fundamental to the studies of the mechanically dominated...
The two major focuses of this dissertation are: (1) Studying the structural behaviors of hyper-elast...
International audienceOriginal constitutive modeling is proposed for filled rubber materials in order...
The tensile behaviour of brittle materials can be enhanced by fibres. The cracking stress may increa...
ABSTRACT: A numerical constitutive model for a single layer of fiber-reinforced composite laminates,...
Based on the invariant theory of continuum mechanics by Spencer, the strain energy depends on deform...
This paper reports the biaxial tensile mechanical properties of the envelope material through experi...
Based on fiber reinforced continuum mechanics theory, a simple hyperelastic constitutive model is de...
ABSTRACT: Based on fiber reinforced continuum mechanics theory, a simple hyperelastic constitutive m...
In the present contribution we propose a generalized hyperelastic model for fiber-reinforced structu...
This work defines an incompressible, hyperelastic theory of anisotropic soft materials at finite str...
This paper presents an improved constitutive model having application in finite element analysis of ...
This paper presents the Comsol Multiphysics implementation of anisotropic hyperelastic material mode...
AbstractAn anisotropic elasto-plastic constitutive model of paper material is presented. It is formu...
International audienceThe main goal of this study is to propose a practical application of a new fam...
International audienceConstitutive laws are fundamental to the studies of the mechanically dominated...
The two major focuses of this dissertation are: (1) Studying the structural behaviors of hyper-elast...
International audienceOriginal constitutive modeling is proposed for filled rubber materials in order...
The tensile behaviour of brittle materials can be enhanced by fibres. The cracking stress may increa...
ABSTRACT: A numerical constitutive model for a single layer of fiber-reinforced composite laminates,...
Based on the invariant theory of continuum mechanics by Spencer, the strain energy depends on deform...