In this paper, a novel complex potential function for the solution of the flexure–torsion problem in De Saint Venant beams is proposed, considering the simultaneous presence of external shear and torsion excitations. By defining a fictitious vector field and taking advantage of a hydrodynamic analogy, the proposed complex potential function allows the stress vector field and the unitary twist rotation of the cross-section to be determined at once, and, therefore, returns the complete solution of the problem. The proposed approach is well-suited for domains having boundary singularities. A numerical application, implemented by using the Complex Variable Boundary Element Method (CVBEM), is reported for an elliptical cross-section to show the ...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...
International audienceWe study the Saint-Venant shear stress fields [1] arising in a family of secti...
Many torque carrying members have circular sections such as shafts. However, there are certain struc...
The aim of this paper is to provide a solution for the coupled flexure-torsion De Saint Venant probl...
This paper provides solutions for De Saint-Venant torsion problem on a beam with arbitrary and unif...
Torsional problems commonly arise in frame structural members subjected to unsym-metrical loading. S...
The Complex Variable Boundary Element Method (CVBEM) has been shown to be an effective numerical tec...
In solid mechanics, when a torque is applied on a body, the body twists. This is called torsion. In ...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...
In this work, we present a finite element formulation for the Saint-Venant torsion and bending probl...
The present article proposes an alternative way to compute the torsional stiffness based on three-di...
Abstract In this paper the approximate computation of shear stresses in prismatic beams due to Saint...
Aim of this paper is to introduce a basis formulation framed into complex analysis valid to solve s...
This paper deals with the extension of a novel numerical technique, labelled Line Element-less Metho...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...
International audienceWe study the Saint-Venant shear stress fields [1] arising in a family of secti...
Many torque carrying members have circular sections such as shafts. However, there are certain struc...
The aim of this paper is to provide a solution for the coupled flexure-torsion De Saint Venant probl...
This paper provides solutions for De Saint-Venant torsion problem on a beam with arbitrary and unif...
Torsional problems commonly arise in frame structural members subjected to unsym-metrical loading. S...
The Complex Variable Boundary Element Method (CVBEM) has been shown to be an effective numerical tec...
In solid mechanics, when a torque is applied on a body, the body twists. This is called torsion. In ...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...
In this work, we present a finite element formulation for the Saint-Venant torsion and bending probl...
The present article proposes an alternative way to compute the torsional stiffness based on three-di...
Abstract In this paper the approximate computation of shear stresses in prismatic beams due to Saint...
Aim of this paper is to introduce a basis formulation framed into complex analysis valid to solve s...
This paper deals with the extension of a novel numerical technique, labelled Line Element-less Metho...
Determining the shear stress of a structural element caused by torsion is a vital problem. The analy...
International audienceWe study the Saint-Venant shear stress fields [1] arising in a family of secti...
Many torque carrying members have circular sections such as shafts. However, there are certain struc...