AWG ERIF Test Case 6: Ice Impact on an Instrumented Panel
Image: | |
Animation: | Test Case 6 Animation |
Description: | A cylinder of ice impacts a circular plate that was backed by a washer type load cell in test. This model was used to simulate the verification and validation tests that were performed in the development of the ice material model by comparing forces measured in the test to those from the analysis model. |
Status: | Accepted and currently part of the AWG Test Suite |
Classification: | Validation |
Reference Report: | AWG Presentation: Test Case 6 Ice Model Development (Carney) |
Input Deck: | Test Case 6 Input |
Keywords: | *MAT_PLASTICITY_COMPRESSION_TENSION_EOS |
*CONTROL_ALE | |
*SECTION_SOLID_ALE | |
*EOS_TABULATED_COMPACTION | |
*ALE_REFERENCE_SYSTEM_GROUP | |
*ALE_MULTI_MATERIAL_GROUP | |
*CONSTRAINED_LAGRANGE_IN_SOLID | |
Units: | in (length), s (time), lbf-s2/in (mass), psi (stress), lbf-in (energy) |
Model Data: | 71844 nodes / 66264 solid elements / 3 beam elements / 4 materials / 7 parts |
Run Time: | approx. total CPU time = 5000s (Intel® Xeon® CPU E5-2640 @ 2.5GHz / MPP / 4 CPU's) |
Earliest Version: | LS-DYNA® R10.2 |
Test Case Details and Results: | Test Case 6, Documentation and Results for LS-DYNA R14.1-7-gea5f83301c |
Test Case 6, Documentation and Results for LS-DYNA R12.2 Revision 1-g2dd504fe3d | |
Test Case 6, Documentation and Results for LS-DYNA R14.0 Revision 461-gee93a457ac | |
Test Case 6, Documentation and Results for LS-DYNA R13.1 Revision 93-g6e31b592d7 | |
Test Case 6, Documentation and Results for LS-DYNA R13.0 Revision 365-gf8a97bda2a | |
Test Case 6, Documentation and Results for LS-DYNA R12.1 Revision 128-g57c3366e82 | |
Test Case 6, Documentation and Results for LS-DYNA R12.0 Revision 148708 | |
Test Case 6, Documentation and Results for LS-DYNA R11.2 Revision 51-g7e1aee4 | |
Test Case 6, Documentation and Results for LS-DYNA R11.1 Revision 139325 | |
Test Case 6, Documentation and Results for LS-DYNA R10.2 Revision 134743 | |
Bug Issues Found and Fixed: | None |
last modified on Monday April 24, 2023 13:50:34 PDT