The boundary integral method was applied to the elastoplastic analysis of the torsion of prismatic bars, and the results are compared with those obtained by the finite difference method. Although fewer unknowns were used, very good accuracy was obtained with the boundary integral method. Both simply and multiply connected bodies can be handled with equal ease
The paper presents the general approximation strategy for derivatives of solutions obtained by the p...
A numerical algorithm is developed for solving the boundary integral equations for two dimensional i...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...
The application of boundary integral equations to elastoplastic problems is reviewed. Details of the...
The boundary integral equation method was applied in the solution of the plane elastoplastic problem...
The boundary integral equation method was applied in the solution of the plane elastoplastic problem...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 13).Mode of ac...
The problem of determining the elastoplastic properties of a prismatic bar from the given relation f...
A finite element scheme (together with a conjugate gradient algorithm) is demonstrated to be a very ...
Abstract In this paper torsion of prismatic bars considering elastic–plastic material behaviour is s...
AbstractThe problem of determining the elastoplastic properties of a prismatic bar from the given ex...
In this paper torsion of prismatic bars considering elastic-plastic material behavior is studied. Ba...
Includes bibliography.Prior experience of the Finite Element Method stimulated interest and led to r...
This paper provides solutions for De Saint-Venant torsion problem on a beam with arbitrary and unif...
Summary--This paper deals with a finite-difference solution of the torsion problem of nonhomogeneous...
The paper presents the general approximation strategy for derivatives of solutions obtained by the p...
A numerical algorithm is developed for solving the boundary integral equations for two dimensional i...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...
The application of boundary integral equations to elastoplastic problems is reviewed. Details of the...
The boundary integral equation method was applied in the solution of the plane elastoplastic problem...
The boundary integral equation method was applied in the solution of the plane elastoplastic problem...
Prepared at Lewis Research Center.Cover title.Includes bibliographical references (p. 13).Mode of ac...
The problem of determining the elastoplastic properties of a prismatic bar from the given relation f...
A finite element scheme (together with a conjugate gradient algorithm) is demonstrated to be a very ...
Abstract In this paper torsion of prismatic bars considering elastic–plastic material behaviour is s...
AbstractThe problem of determining the elastoplastic properties of a prismatic bar from the given ex...
In this paper torsion of prismatic bars considering elastic-plastic material behavior is studied. Ba...
Includes bibliography.Prior experience of the Finite Element Method stimulated interest and led to r...
This paper provides solutions for De Saint-Venant torsion problem on a beam with arbitrary and unif...
Summary--This paper deals with a finite-difference solution of the torsion problem of nonhomogeneous...
The paper presents the general approximation strategy for derivatives of solutions obtained by the p...
A numerical algorithm is developed for solving the boundary integral equations for two dimensional i...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...