| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 309284 | Thin-Walled Structures | 2012 | 9 Pages |
This paper introduces mechanics-based expressions for predicting the rotational restraint provided by through-fastened metal panels to Z- and C-section girts or purlins. The analytical prediction equations include the effect of local panel deformation at a screw, and girt or purlin flange bending at a through-fastened connection. Finite element parameter studies are performed to quantify the local fastener pull-out stiffness for a common panel profile, and flange bending stiffness is determined with a cantilever beam model. Rotational restraint experiments are conducted to validate the prediction equations. The through-fastened connection stiffness is simulated in a finite strip elastic buckling analysis with a rotational spring to demonstrate how system effects can be included in design.
► This paper predicts the rotational restraint provided by the panel to the girt. ► Experiments are conducted to validate the prediction. ► The effect of the rotational restraint on a buckling analysis is shown.
