Plate Attributes: Face Global Pressure

Description

Assigns uniform global pressure on the surfaces of selected plate elements using three orthogonal components and a coordinate system.

Different pressures can be applied on the -z and +z surfaces of a plate. The sign of a pressure component refers to its direction with respect to the coordinate system.

The magnitude of the resultant force is equal to pressure × plate surface area.

As the pressure is applied to the outer surfaces of a plate, not to the mid-surface, the area over which it acts depends on the surface, the thickness and the curvature of the plate. The area can also depend on the plate offset attribute, if applied, and on whether the pressure is projected or not.

In geometric nonlinear analysis, the direction of the pressure does not change as the plate deflects and deforms.

Pressure attributes are load case dependent.

Dialog

Global Pressure X / Y / Z

Three components of pressure.

Projected

If set, the pressure acts on a projected area.  

If not set, the pressure acts over the entire plate surface area.

Two projection methods are available:

In geometric nonlinear analysis, the total load generated for projected pressure can change depending on the deflection and deformation of the plate, although the direction remains constant.

Coordinate System

The coordinate system (UCS) in which the pressure components are defined.

The UCS is used only to define the global Cartesian components of the force. Subsequent changes to the UCS do not affect the direction or magnitude of the force.

Surface

The surface on which the pressure is applied.

To apply global pressure on both surfaces of the plate, the attribute needs to be applied twice, once per surface.

Common Controls

Units

Stress (e.g., Pa, psi).

See Also