Cantilever Beam with Applied Moment at Tip — Shell Elements
Problem Statement
Note
To view this project in FLAC3D, use the menu command . Choose “Structure/Shell/Cantilever” and select “Cantilever.prj” to load. The main data files used are shown at the end of this example. The remaining data files can be found in the project.
A cantilever beam is subjected to an applied moment at its tip, as described in Cantilever Beam with Applied Moment at Tip — Beam Elements. Here we replicate this problem using shell elements to compute the large-strain \(y\)-direction deflection at the beam tip.
The FLAC3D model simulates a beam of 10 m length and 1 m depth. We utilize a cross-diagonal mesh pattern to ensure symmetric response, and we utilize the DKT-CST Hybrid Shell Element. We set the Young’s modulus and Poisson’s ratio equal to 200 GPa and 0, respectively. We set the shell thickness equal to 0.133887 m to produce a second moment of inertia, \(I\), equal to 200 × 10-6 m4. The left end is fully fixed in all six degrees of freedom. The total applied moment at the tip is 5 MN-m, one-half of which is assigned to each of the two nodes at the tip.
The final structural configuration is shown in Figure 1. The \(y\)-direction deflection at the beam tip equals 5.471 m, which is within 0.1% of the analytical solution.
Reference
Cook, R. D., D. S. Malkus and M. E. Plesha. Concepts and Applications of Finite Element Analysis, Third Edition. New York: John Wiley & Sons Inc. (1989).
Data File
Cantilever.dat
model new
model title ...
"Cantilever beam (using shell elements), applied tip moment (large-strain)"
; Create shells and assign properties
struct shell create by-quad (0,0,0) (10,0,0) (10,0,1) (0,0,1) size (10,1) ...
cross-diagonal element-type=dkt-csth
struct shell property isotropic=(2e11, 0.0) thick=0.133887
; Boundary conditions
struct node fix velocity rotation range position-x=0
; fully fix left end
struct node fix velocity-z rotation-x rotation-y
; restrict non-beam deformation modes
struct node apply moment=(0,0,2.5e6) range position-x=10
; Solve model
model large-strain on
model solve ratio-local 1e-7
model save 'Cantilever'
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