OSTI Document ID 541912
Local PDF osti/541912.pdf
Title A survey of numerical methods for shock physics applications
Creator/Author Hertel, E.S. Jr.
Publication Date 1997 Oct 01
Report Number(s) line line docnumall
DOE Contract No. AC04-94AL85000
Other Numbers BR: DP0102052
Resource/
Doc Type
Conference
Resource Relation International workshop on new models and numerical codes for shock wave processes in condensed media, Oxford (United Kingdom), 15-19 Sep 1997 ; PBD:[1997]
Research
Organization
Sandia National Labs., Albuquerque, NM (United States)
Sponsoring
Organization
USDOE, Washington, DC (United States)
Subject 99 MATHEMATICS, COMPUTERS, INFORMATION SCIENCE, MANAGEMENT, LAW, MISCELLANEOUS;45 MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE ;36 MATERIALS SCIENCE ; COMPUTER CODES; SHOCK WAVES; HYDRODYNAMICS; USES; MILITARY EQUIPMENT; WEAPONS; MATERIALS; CHEMICAL EXPLOSIVES; NUMERICAL SOLUTION; IMPACT SHOCK; DEFORMATION
Description/
Abstract
Hydrocodes or more accurately, shock physics analysis packages, have been widely used in the US Department of Energy (DOE) laboratories and elsewhere around the world for over 30 years. Initial applications included weapons effects studies where the pressure levels were high enough to disregard the material strength, hence the term hydrocode. Over the last 30 years, Sandia has worked extensively to develop and apply advanced hydrocodes to armor/anti-armor interactions, warhead design, high explosive initiation, and nuclear weapon safety issues. The needs of the DOE have changed over the last 30 years, especially over the last decade. A much stronger emphasis is currently placed on the details of material deformation and high explosive initiation phenomena. The hydrocodes of 30 years ago have now evolved into sophisticated analysis tools that can replace testing in some situations and complement it in all situations. A brief history of the development of hydrocodes in the US will be given. The author also discusses and compares the four principal methods in use today for the solution of the conservation equations of mass, momentum, and energy for shock physics applications. The techniques discussed are the Eulerian methods currently employed by the Sandia multi-dimensional shock physics analysis package known as CTH; the element based Lagrangian method currently used by codes like DYNA; the element free Lagrangian method (also known as smooth particle hydrodynamics) used by codes like the Los Alamos code SPHINX; and the Arbitrary Lagrangian Eulerian methods used by codes like the Lawrence Livermore code CALE or the Sandia code ALEGRA.
Country of
Publication
United States
Language English
Format 21 p. ; PL:
Availability OSTI as DE98000224
OSTI Identifier OSTI ID: 541912; ON: DE98000224
System Entry Date 2001 May 05