Practical Aspects of Numerical Simulations of Dynamic Events: Material Interfaces
Abstract
The use of finite-difference and finite-element computer codes to solve problems involving fast, transient loading is commonplace. A large number of commercial codes exist and are applied to problems ranging from fairly low to extremely high damage levels (e.g., design of containment structures to mitigate effects of industrial accidents; protection of buildings and people from blast and impact loading; foreign-object impact damage; design of space structures to withstand impacts of small particles moving at hypervelocity, a case where pressures generated exceed the material strength by an order of magnitude). But, what happens if code predictions do not correspond with reality? This report discusses various factors related to material interfaces in Lagrangian and Eulerian shock wave propagation codes (hydrocodes), which can lead to disagreement between computations and experience. Companion reports focus on problems associated with meshing and constitutive models and the use of material data at strain rates inappropriate to the problem. This report is limited to problems involving fast, transient loading, which can be addressed by commercial finite-difference and finite-element codes.
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 01, 2000
- Accession Number
- ADA384161
Entities
People
- Daniel R. Scheffler
- Jonas A. Zukas
Organizations
- United States Army Research Laboratory