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Computer Simulation of Dynamic Phenomena

Preferred finite difference schemes in one, two, and three space dimensions are described for solving the three fundamental equations of mechanics (conservation of mass, conservation of momentum, and conservation of energy). Models of the behavior of materials provide the closure to the three fundam...

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Bibliographic Details
Main Author: Wilkins, Mark L.
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 1999, 1999
Edition:1st ed. 1999
Series:Scientific Computation
Subjects:
Classical And Continuum Physics
Engineering Mathematics
Condensed Matter Physics
Computer Simulation
Computer Modelling
Mathematics / Data Processing
Computational Science And Engineering
Mathematical Physics
Physics
Engineering / Data Processing
Theoretical, Mathematical And Computational Physics
Condensed Matter
Mathematical And Computational Engineering Applications
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • 1. Elements of Fluid Mechanics
  • 2. Numerical Techniques
  • 3. Modeling the Behavior of Materials
  • 4. Two-Dimensional Elastic—Plastic Flow
  • 5. Sliding Interfaces in Two Dimensions
  • 6. Elastic—Plastic Flow in Three Space Dimensions
  • 7. Sliding Surfaces in Three Dimensions
  • 8. Magnetohydrodynamics of HEMP
  • Appendices
  • A. Effect of a Second Shock on the Principal Hugoniot
  • B. Finite Difference Program for One Space Dimension and Time
  • B.1 Fundamental Equations
  • B.2 Finite Difference Equations
  • B.3 Boundary Conditions
  • B.4 Opening and Closing Voids
  • C. A Method for Determining the Plastic Work Hardening Function
  • C.1 Application to 6061-T6 Aluminum
  • D. Detonation of a High Explosive for a ?-Law Equation of State
  • E. Magnetic Flux Calculation
  • F. Thermal Diffusion Calculation
  • References

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