Add to ORKGThe concept of domain integral used extensively for J integral has been applied in this work for the formulation of J(2) integral for linear elastic bimaterial body containing a crack at the interface and subjected to thermal loading. It is shown that, in the presence of thermal stresses, the J(k) domain integral over a closed path, which does not enclose singularities, is a function of temperature and body force. A method is proposed to compute the stress intensity factors for bimaterial interface crack subjected to thermal loading by combining this domain integral with the J(k) integral. The proposed method is validated by solving standard problems with known solutions
In this study, Betti’s reciprocal theorem and the principle of superposition are used to obtain weig...
In this study, Betti’s reciprocal theorem and the principle of superposition are used to obtain weig...
A stable numerical algorithm is presented for an elastostatic problem involving a crack close to and...
The concept of domain integral used extensively for J integral has been applied in this work for the...
AbstractA linear bi-material elastic body containing a crack at the interface and subjected to therm...
A linear bi-material elastic body containing a crack at the interface and subjected to thermal loadi...
A linear bi-material elastic body containing a crack at the interface and subjected to thermal loadi...
AbstractA linear bi-material elastic body containing a crack at the interface and subjected to therm...
A method using functions of a complex variable is developed for evaluation of J1 and a modified J2 i...
A method using functions of a complex variable is developed for evaluation of J1 and a modified J2 i...
A numerical method for evaluating the stress intensity factors (SIFs) of a three-dimensional interfa...
In this study, an analytical method is presented for the computation of thermal weight functions in ...
In this study, an analytical method is presented for the computation of thermal weight functions in ...
Components of turbines, combustion chambers, multi-layered electronic packaging structures and nucle...
AbstractIn this study, Betti’s reciprocal theorem and the principle of superposition are used to obt...
In this study, Betti’s reciprocal theorem and the principle of superposition are used to obtain weig...
In this study, Betti’s reciprocal theorem and the principle of superposition are used to obtain weig...
A stable numerical algorithm is presented for an elastostatic problem involving a crack close to and...
The concept of domain integral used extensively for J integral has been applied in this work for the...
AbstractA linear bi-material elastic body containing a crack at the interface and subjected to therm...
A linear bi-material elastic body containing a crack at the interface and subjected to thermal loadi...
A linear bi-material elastic body containing a crack at the interface and subjected to thermal loadi...
AbstractA linear bi-material elastic body containing a crack at the interface and subjected to therm...
A method using functions of a complex variable is developed for evaluation of J1 and a modified J2 i...
A method using functions of a complex variable is developed for evaluation of J1 and a modified J2 i...
A numerical method for evaluating the stress intensity factors (SIFs) of a three-dimensional interfa...
In this study, an analytical method is presented for the computation of thermal weight functions in ...
In this study, an analytical method is presented for the computation of thermal weight functions in ...
Components of turbines, combustion chambers, multi-layered electronic packaging structures and nucle...
AbstractIn this study, Betti’s reciprocal theorem and the principle of superposition are used to obt...
In this study, Betti’s reciprocal theorem and the principle of superposition are used to obtain weig...
In this study, Betti’s reciprocal theorem and the principle of superposition are used to obtain weig...
A stable numerical algorithm is presented for an elastostatic problem involving a crack close to and...