2d to 3d ale mapping
Shubham Sharma
Node #275500 has out-of-range velocities" for several nodes.
l...@schwer.net
The “out-of-range velocities” is often caused by too large a timestep.
Try setting the *CONTROL_TIMESTEP parameter TSSFAC=0.6, or smaller.
--len
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Shubham Sharma
l...@schwer.net
I changed the value of DCT on *CONTROL_ALE from 2 to -1 in both input files and that seemed to make the difference.
Note: the paper you were following correctly is fairly OLD (2008) and LS-DYNA has changed in the past 18 years 😊 --len
From: 'Shubham Sharma' via LS-DYNA2 <ls-d...@googlegroups.com>
Sent: Saturday, April 18, 2026 10:58 AM
To: LS-DYNA2 <ls-d...@googlegroups.com>
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James Kennedy
From the User’s Manual (*CONTROL_ALE):
2. The DCT Field. For the general ALE solver in both 2D and 3D, the DCT field
specifies the advection scheme. By default, the solver uses the original advection
scheme. Setting DCT = -1 invokes the improved advection scheme. The S-ALE
solver in both 2D and 3D always uses the improved advection scheme (DCT is
ignored).
We recommend DCT = -1 over the default scheme, especially for simulating explosives.
This scheme includes the following major changes:
a) Relaxes an artificial limit on the expansion ratio limit. The default limit improves
stability in some situations but can overestimate the explosive impulse.
b) Corrects redundant out-flux of material at corner elements. The redundancy
can lead to negative volume.
c) Removes several artificial constraints in the advection which were originally
implemented to assist in stability but are no longer needed.
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