Add to ORKGPrior methods for calculating energy release rate in cracked laminates were extended to account for heterogeneous laminates and residual stresses. The method is to partition the crack tip stresses into local bending moments and normal forces. A general equation is then given for the total energy release rate in terms of the crack-tip moments and forces and the temperature difference experienced by the laminate. The analysis method is illustrated by several example test geometries. The examples were verified by comparison to numerical calculations. The residual stress term in the total energy release rate equation was found to be essentially exact in all example calculations
ABSTRACT: This paper presents the results of a buckling and postbuckling analysis and modeling of em...
Analytical methods have been developed to study the basic nature of the coupled opening, in-plane sh...
Energy release rate of an edge delamination of a laminated beam subject to a through-thickness tempe...
Abstract. Prior methods for calculating energy release rate in cracked laminates were extended to ac...
By partitioning the total stresses in a damaged composite into either mechanical and residual stress...
In order to study whether the interfacial crack will grow or not in the composite laminates, the ene...
In order to study whether the interfacial crack will grow or not in the composite laminates, the ene...
In order to study whether the interfacial crack will grow or not in the composite laminates, the ene...
An analysis utilizing laminated plate theory is developed to calculate the strain energy release rat...
ABSTRACT: The expressions for the strain-energy release rate associated with local delaminations gro...
ABSTRACT: The elastic work factor ηel concept was applied to composite structures for the ca...
AbstractThis article presents analytic solutions of energy release rates of a cracked laminate by us...
By partitioning the total stresses in a damaged composite into either mechanical and residual stress...
A method is presented for the analysis of laminated beams with general stacking sequences and arbitr...
A new method called the crack-tip force method (CTFM) is derived for computing the energy release ra...
ABSTRACT: This paper presents the results of a buckling and postbuckling analysis and modeling of em...
Analytical methods have been developed to study the basic nature of the coupled opening, in-plane sh...
Energy release rate of an edge delamination of a laminated beam subject to a through-thickness tempe...
Abstract. Prior methods for calculating energy release rate in cracked laminates were extended to ac...
By partitioning the total stresses in a damaged composite into either mechanical and residual stress...
In order to study whether the interfacial crack will grow or not in the composite laminates, the ene...
In order to study whether the interfacial crack will grow or not in the composite laminates, the ene...
In order to study whether the interfacial crack will grow or not in the composite laminates, the ene...
An analysis utilizing laminated plate theory is developed to calculate the strain energy release rat...
ABSTRACT: The expressions for the strain-energy release rate associated with local delaminations gro...
ABSTRACT: The elastic work factor ηel concept was applied to composite structures for the ca...
AbstractThis article presents analytic solutions of energy release rates of a cracked laminate by us...
By partitioning the total stresses in a damaged composite into either mechanical and residual stress...
A method is presented for the analysis of laminated beams with general stacking sequences and arbitr...
A new method called the crack-tip force method (CTFM) is derived for computing the energy release ra...
ABSTRACT: This paper presents the results of a buckling and postbuckling analysis and modeling of em...
Analytical methods have been developed to study the basic nature of the coupled opening, in-plane sh...
Energy release rate of an edge delamination of a laminated beam subject to a through-thickness tempe...