Abstract
A continuum damage model is developed for the linear viscoelastic behavior of composites with microcracks consisting of an isotropic matrix reinforced by two arbitrarily independent and inextensible fiber families. Despite the fact that the matrix material is isotropic, the model in consideration bears the characteristic of directed media included in the transverse isotropy symmetry group solely due to its fibers distributions and the existence of microcracks. Using the basic laws of continuum damage mechanics and equations belonging to kinematics and deformation geometries of fibers, the constitutive functions have been obtained. It has been detected as a result of the thermodynamic constraints that the stress potential function is dependent on two symmetric tensors and two vectors, whereas the dissipative stress function is dependent on four symmetric tensors and two vectors. To determine arguments of the constitutive functionals, findings relating to the theory of invariants have been used as a method because of the fact that isotropy constraint is imposed on the material. As a result the linear constitutive equations of elastic stress, dissipative stress, and strain energy density release rate have been written in terms of material coordinate description. Using these expressions, total stress has been found.
Highlights
In various fields of industry, fiber reinforced composite materials are commonly used for load carrying components
This paper presents a continuum damage model based on fundamental concepts of continuum mechanics for the linear viscoelastic behavior of incompressible composites with microcracks that consist of an isotropic matrix reinforced by inextensible two families of fibers having an arbitrary distribution
To obtain a more concrete expression of nonlinear constitutive equations of the elastic stress and the strain energy density release rate given by expressions (33) and (34), derivatives of Σ must be known according to the arguments it depends on
Summary
In various fields of industry, fiber reinforced composite materials are commonly used for load carrying components. A number of models of damage behavior of fiber reinforced composites are based on the methods of continuum damage mechanics (CDM). Voyiadjis and Kattan [22] have presented a new formulation to link continuum damage mechanics with the concept of fabric tensors within the framework of classical elasticity assuming small strains. Considering necessary constitutive axioms, after determining the arguments affecting the stress potential it was further proceeded to the formulation of the constitutive theory and a model has been formed for the damaged viscoelastic composite with isotropic matrix material. In our study [33], we are concerned with developing the continuum damage mechanics model for elastic behavior of composites having microcracks consisting of an isotropic matrix reinforced by independent and inextensible two families of arbitrarily fibers
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