Viscuous Mech Behavior of Rock Mass Under Therm Stress
Abstract
VISCOT is a nonlinear, transient , thermal-stress, finite-element program designed to determine the viscoelastic, viscoplastic, or elastoplastic deformation of a rock mass due to mechanical and thermal loading. A major application of VISCOT in conjunction with a SCEPTER heat transfer code, e.g. DOT-BPMD, is the thermomechanical analysis of a rock mass such as salt in which significant time-dependent, nonlinear deformations are expected to occur. Such problems include room and canister scale studies during the excavation, operation, and long term, post closure stages in a salt repository.
- Authors:
- Publication Date:
- Research Org.:
- OECD Nuclear Energy Agency
- Sponsoring Org.:
- NEA
- OSTI Identifier:
- 1230445
- Report Number(s):
- VISCOT; 001250C017600
- DOE Contract Number:
- P
- Resource Type:
- Software
- Software Revision:
- 00
- Software Package Number:
- 001250
- Software Package Contents:
- Media Directory; Software Abstract; ONWI-437; Media Includes Source Code, Sample Problem Input and Output, auxiliary Information, JCL and Control Information;\ 1 3.5 Diskette
- Software CPU:
- C0176
- Open Source:
- No
- Source Code Available:
- Yes
- Country of Publication:
- United States
Citation Formats
Sartori, Enrico. Viscuous Mech Behavior of Rock Mass Under Therm Stress.
Computer software. Vers. 00. NEA. 14 Oct. 1998.
Web.
Sartori, Enrico. (1998, October 14). Viscuous Mech Behavior of Rock Mass Under Therm Stress (Version 00) [Computer software].
Sartori, Enrico. Viscuous Mech Behavior of Rock Mass Under Therm Stress.
Computer software. Version 00. October 14, 1998.
@misc{osti_1230445,
title = {Viscuous Mech Behavior of Rock Mass Under Therm Stress, Version 00},
author = {Sartori, Enrico},
abstractNote = {VISCOT is a nonlinear, transient , thermal-stress, finite-element program designed to determine the viscoelastic, viscoplastic, or elastoplastic deformation of a rock mass due to mechanical and thermal loading. A major application of VISCOT in conjunction with a SCEPTER heat transfer code, e.g. DOT-BPMD, is the thermomechanical analysis of a rock mass such as salt in which significant time-dependent, nonlinear deformations are expected to occur. Such problems include room and canister scale studies during the excavation, operation, and long term, post closure stages in a salt repository.},
doi = {},
url = {https://www.osti.gov/biblio/1230445},
year = {Wed Oct 14 00:00:00 EDT 1998},
month = {Wed Oct 14 00:00:00 EDT 1998},
note =
}
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