Add to ORKGThe boundary integral equation method was applied in the solution of the plane elastoplastic problems. The use of this method was illustrated by obtaining stress and strain distributions for a number of specimens with a single edge notch and subjected to pure bending. The boundary integral equation method reduced the non-homogeneous biharmonic equation to two coupled Fredholm-type integral equations. These integral equations were replaced by a system of simultaneous algebraic equations and solved numerically in conjunction with the method of successive elastic solutions
Equations for solving initial and boundary value problems in elastoplastic flow in longitudinally st...
Solving of elastodynamic problems arises in many scientific fields such as wave propagation in the g...
A numerical boundary integral scheme is proposed for the solution of the system of field equations o...
The boundary integral equation method was applied in the solution of the plane elastoplastic problem...
A semidirect boundary integral method, using Airy's stress function and its derivatives in Green's b...
The application of boundary integral equations to elastoplastic problems is reviewed. Details of the...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 24).Mode of ac...
The boundary integral method was applied to the elastoplastic analysis of the torsion of prismatic b...
AbstractIn this paper, a new boundary element (BE) approach is proposed to determine the singular st...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 16).Mode of ac...
This work dealt with elasto-plastic analysis of 2-dimensional and axisymmetric problems using the f...
Two advances in the numerical techniques of utilizing the BIE method are presented. The boundary unk...
The field equations of plane and three-dimensional elastostatics are transformed, by a general metho...
The new findings can be outlined as follows: Two new simple auxiliary equations which are required t...
In this paper, a new boundary element (BE) approach is proposed to determine the singular stress fie...
Equations for solving initial and boundary value problems in elastoplastic flow in longitudinally st...
Solving of elastodynamic problems arises in many scientific fields such as wave propagation in the g...
A numerical boundary integral scheme is proposed for the solution of the system of field equations o...
The boundary integral equation method was applied in the solution of the plane elastoplastic problem...
A semidirect boundary integral method, using Airy's stress function and its derivatives in Green's b...
The application of boundary integral equations to elastoplastic problems is reviewed. Details of the...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 24).Mode of ac...
The boundary integral method was applied to the elastoplastic analysis of the torsion of prismatic b...
AbstractIn this paper, a new boundary element (BE) approach is proposed to determine the singular st...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 16).Mode of ac...
This work dealt with elasto-plastic analysis of 2-dimensional and axisymmetric problems using the f...
Two advances in the numerical techniques of utilizing the BIE method are presented. The boundary unk...
The field equations of plane and three-dimensional elastostatics are transformed, by a general metho...
The new findings can be outlined as follows: Two new simple auxiliary equations which are required t...
In this paper, a new boundary element (BE) approach is proposed to determine the singular stress fie...
Equations for solving initial and boundary value problems in elastoplastic flow in longitudinally st...
Solving of elastodynamic problems arises in many scientific fields such as wave propagation in the g...
A numerical boundary integral scheme is proposed for the solution of the system of field equations o...