The Impacts of Consequence on Security System Performance Requirements
Abstract not provided.
Publications
ALEGRA-HEDP : version 4.6
ALEGRA is an arbitrary Lagrangian-Eulerian finite element code that emphasizes large distortion and shock propagation in inviscid fluids and solids. This document describes user options for modeling resistive magnetohydrodynamics, thermal conduction, and radiation transport effects, and two material temperature physics.
ALEGRA-MHD : version 4.6
ALEGRA is an arbitrary Lagrangian-Eulerian finite element code that emphasizes large distortion and shock propagation in inviscid fluids and solids. This document describes user options for modeling resistive magnetohydrodynamic, thermal conduction, and radiation emission effects.
ALEGRA : version 4.6
ALEGRA is an arbitrary Lagrangian-Eulerian multi-material finite element code used for modeling solid dynamics problems involving large distortion and shock propagation. This document describes the basic user input language and instructions for using the software.
ALEGRA-MHD : Version 4.0
ALEGRA is an arbitrary Lagrangian-Eulerian finite element code that emphasizes large distortion and shock propagation in inviscid fluids and solids. This document describes user options for modeling magnetohydrodynamic, thermal conduction, and radiation emission effects.
Characterization of magnetically accelerated flyer plates
Proposed for publication in Physical Review.
Abstract not provided.
ALEGRA: User Input and Physics Descriptions Version 4.2
ALEGRA is an arbitrary Lagrangian-Eulerian finite element code that emphasizes large distortion and shock propagation. This document describes the user input language for the code.
Radiation-Driven Dynamic Target Response for Dissimilar Material Jetting and for Debris Effects in Partitioned Pipes
Abstract not provided.
Results 51–58 of 58