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Shell obstacle course: Scordelis Lo roof

Peter Wilson edited this page Jul 25, 2017 · 6 revisions

Problem definition

The linear static Scordelis-Lo roof test considers a section of cylindrical shell fixed by rigid diaphragms at it's axial ends subject to a pseudo-gravity distributed load of a magnitude 90. Isotropic material properties are as per the figure below. Due to symmetry, only a quarter of the shell is modeled.

Problem definition [2]

The key result is the vertical displacement of the lateral side at the midpoint, denoted by "u_z" in the diagram above, for which the reference value is "u_z" = 0.3024 [2].

Results

The following Z-displacement contour of the Kratos thin quad element (mesh = 192 elements) is provided for context.

Scordelis Lo displacement contour.

Scordelis-Lo roof results: Z-displacement contour of Kratos thin quad element

The results of the test for the thin and thick triangle Kratos shell elements are presented below.

Scordelis-Lo roof results: triangle elements

The results of the test for the thin and thick quadrilateral Kratos shell elements are presented below.

Scordelis-Lo roof results: quadrilateral elements

Both graphs above indicate all Kratos triangular and quadrilateral shell elements agree with the reference solution.

References

  1. Ted Belytschko et al. “Stress projection for membrane and shear locking in shell finite elements”. In: Computer Methods in Applied Mechanics and Engineering 51.1-3 (1985), pp. 221–258.
  2. Robin Bouclier, Thomas Elguedj, and Alain Combescure. “Efficient isogeometric NURBS-based solid-shell elements: Mixed formulation and method”. In: Computer Methods in Applied Mechanics and Engineering 267 (2013), pp. 86 –110.

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