Example Description
This example uses a flat, circular plate to test orthotropic plate behavior. The plate has a 48 inch radius, is 2 inches thick and is fixed (clamped) around the perimeter. The plate is meshed 8x16 (radial by tangential). A uniform vertical (out-of-plane) load of 0.2 kips per square inch is applied to the plate. The results for the vertical deflection at the center of the plate and bending moments at selected points on the edge of the plate are compared with independent hand calculated results based on theory presented in Chapter 6 of Ugural 1981. Similar theory is presented in Chapter 11 of Timoshenko and Woinowsky-Krieger 1959.
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In Model A orthotropic material properties are used. Here the constants , xE , yE νy and G are input directly into the material properties definition for the model. In SAP2000 this model those constants are referred to as modulus of elasticity for direction 1 (e1), modulus of elasticity for direction 2 (e2), Poisson’s ratio for plane12 (u12) and shear modulus for plane12 (g12), respectively. For the thick plate model the out-of-plane shear moduli, g13 and g23, are set equal to the G used in the thick plate isotropic model and then, similar to the thick plate isotropic model, the v13 and v23 area object stiffness modifiers are set to 1E+04 so that out-of-plane shear deformations are ignored. This is consistent with the thin plate solution and with the independent results.
Tested Features
- Plate bending analysis of shells
- Orthotropic material properties
- Area object stiffness modifiers