Add to ORKGThe study want to make a comparison between tho calculus methods of the linear elastic deformations for plane curved beams in their plan loaded. The results obtained with the finite element analysis have some important advantages against the results obtained with the classic calculus of resistence ’ strength.. 1
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
The linear and non-linear analysis of curved beams is a very classical but still very discussed topi...
Plane elasticity solutions using stress functions for stresses and displacements in orthotropic curv...
Plane stress and plane strain analytical solutions to partially plastic deformation of a curved beam...
Curved beams have a wide variety of applications that include switches, clamps, suspensions, crane h...
Many researchers have attempted to find the solution to a curved beam under load. However, the stres...
Abstract A displacement function suitable for plane curved beam in polar coordinates is introduced, ...
This study will investigate the stability of curved beams in the elastic range. Presented are deriva...
A geometrically exact and completely consistent finite element theory for curved and twisted beams i...
An experimental and analytical investigation of the large deflections of curved beams was conducted ...
The linear and non-linear analysis of curved beams is a very classical but still very discussed topi...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
The linear and non-linear analysis of curved beams is a very classical but still very discussed topi...
Plane elasticity solutions using stress functions for stresses and displacements in orthotropic curv...
Plane stress and plane strain analytical solutions to partially plastic deformation of a curved beam...
Curved beams have a wide variety of applications that include switches, clamps, suspensions, crane h...
Many researchers have attempted to find the solution to a curved beam under load. However, the stres...
Abstract A displacement function suitable for plane curved beam in polar coordinates is introduced, ...
This study will investigate the stability of curved beams in the elastic range. Presented are deriva...
A geometrically exact and completely consistent finite element theory for curved and twisted beams i...
An experimental and analytical investigation of the large deflections of curved beams was conducted ...
The linear and non-linear analysis of curved beams is a very classical but still very discussed topi...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
A one-dimensional theory and a finite element model for the stress analysis of laminated curved beam...
The linear and non-linear analysis of curved beams is a very classical but still very discussed topi...
Plane elasticity solutions using stress functions for stresses and displacements in orthotropic curv...