marmilew
Civil/Environmental
- Sep 24, 2013
- 16
Hi all
I analyse buckling stability of a column in a static, nonlinear analysis. Bottom support allows only rotations (except torsional) and top one allows rotations and vertical displacement. To get initial imperfection i apply lateral pressure in the 1st step. In the 2nd step lateral pressure continue and vertical, compresive force is applied.
For initial guess I started with lateral load of 100N/mm which gave me a lateral deflection of 12mm. Analysis converged. However, when i applied smaller pressure to have initial deflection of only 1mm, analysis cannot converge.
Can anyone explain, why analysis converge with bigger deformation and abort with the smaller one. With bigger deformation my structure is in theory less stable, however it converge better.
I use beam elements.
I analyse buckling stability of a column in a static, nonlinear analysis. Bottom support allows only rotations (except torsional) and top one allows rotations and vertical displacement. To get initial imperfection i apply lateral pressure in the 1st step. In the 2nd step lateral pressure continue and vertical, compresive force is applied.
For initial guess I started with lateral load of 100N/mm which gave me a lateral deflection of 12mm. Analysis converged. However, when i applied smaller pressure to have initial deflection of only 1mm, analysis cannot converge.
Can anyone explain, why analysis converge with bigger deformation and abort with the smaller one. With bigger deformation my structure is in theory less stable, however it converge better.
I use beam elements.