/IMPL/BUCKL/2
Engine Keyword Euler buckling modes will be computed based on actual pre-stress stat.
Format
/IMPL/BUCKL/2
V1 V2 Nbuck MSGLVL MAXSET SHFCL
Definitions
Field | Contents | SI Unit Example |
---|---|---|
V1, V2 | Eigenvalue range of
interest. 2. (Real) |
|
Nbuck | Number of modes to be
computed. (Integer > 0) |
|
MSGLVL | Diagnostic (printout)
level. (Integer Range: [0;4]) |
|
MAXSET | Number of vectors in a
block or set.
(Integer Range: [1;16]) |
|
SHFCL | Shift in buckling modes pencil.
|
Comments
- Computation of Euler buckling modes follow a linear or nonlinear implicit or explicit analysis.
- The units of V1
and V2 are eigenvalues. Each buckling eigenvalue is the factor by
which the pre-buckling state of stress is multiplied to the produce buckling in the
shape defined by the corresponding eigenvector. A negative eigenvalue means the
critical loading is in the opposite direction.
As the former analysis can be variable options, the critical loading factors should be explained as effective ones.
- Eigenvalues are found in order of
increasing magnitude; that is, those closest to zero are found first. Different
V1 and V2 inputs show the ranges in the
following table:
V1 V2 [V1,V2] (V1 < V2) 0. V2 Lowest Nbuck roots below V2 V1 0. [V1,+∞] 0. 0. [-∞,+∞] - Only version SMP MONOPROC is available using BCSLIB-EXT (Lanczos method).
- MSGLVL controls the amount of diagnostic output during the eigenvalue extraction. The default value of zero suppresses all diagnostic output. A value of one prints eigenvalues accepted at each shift. High values result in increasing levels of diagnostic output.
- MAXSET is used to limit the maximum block size in the Lanczos solver. It may be reduced if there is insufficient memory available. The default value is recommended.
- A specification of SHFCL near the first factor of critical loading may improve the performance, especially when the applied load differs from the first buckling load by orders of magnitude.