Partial Trapezoidal Element Load
Definition of a linearly varying distributed load acting over a part of the element.
Setting | Description |
---|---|
From, To, Step | Element series to be loaded |
Assembly | Alternative to load assignment via element series: Name of the assembly to be loaded. The specified load is applied to every element of the specified assembly. |
Qb, Qe | The load intensity at the begin and end of the loaded element section |
Global / Local | Selection of the related direction system (global, local, or user default orientation system (Y'L, Z'L)). Beta: If Beta is selected, the program will consider the local Users default orientation system (Y'L, Z'L), without considering the elements angle β value, for load direction and eccentricities evaluation. |
A | Distance from the element begin to the start of the partial uniform load. |
C | Length of the load application line. |
X-Dir, Y-Dir, Z-Dir | Selection of the required direction of the applied loading. |
Real length / Projection | Load intensities related to the real (clear) element lengths or to the length of the projection normal to the load direction |
Load/Unit length | Entered load intensities are defined as line loads (force per length unit). |
Load mult. by CS width | Entered intensity values are surface loads related to the cross-section width. The values are internally multiplied by the cross-section width (z1+z2). |
Load mult. by CS depth | Entered intensity values are surface loads related to the cross-section depth. The values are internally multiplied by the cross-section depth (y1+y2). |
Nodal Load | Entered load intensities are defined as line loads and applied as concentrated loads at the element begin and end without taking into consideration any rigid restraint moments |
[OK+Series] | To continue with further input of the same load type |