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References

(taken from LA-UR-1426 by Norman L. Johnson)

Addessio, F.L., and J.B. Aidun, "Analysis of Shock-Induced Damage in Fiber Reinforced Composites," High-Pressure Shock Compression of Solids, Vol. 3, L. Davison and M. Shahinpoor, Eds., Springer-Verlag.

Addessio, F.L., and J.N. Johnson, "Rate Dependent Ductile Failure Model," J. Appl. Phys., Vol. 74, p. 1640, 1993.

Addessio, F.L., and J.N. Johnson, "A Constitutive Model for the Dynamic Response of Brittle Materials," J. Appl. Phys., Vol. 67, p. 3275, 1990.

Addessio, F.L., J.N. Johnson and P.J. Maudlin, "The Effect of Void Growth on Taylor Cylinder Impact Experiments," J. Appl. Phys., Vol. 73, p. 7288, 1993.

Addessio, F.L., J.R. Baumgardner, J.K. Dukowicz, N.L. Johnson, B.A. Kashiwa, R.M. Rauenzahn, and C. Zemach, "CAVEAT: A Computer Code for Fluid Dynamics Problems with Large Distortion and Internal Slip," Los Alamos National Laboratory Report LA-10613-MS Rev. 1, May 1992.

[6] Addessio, F.L., M.C. Cline, and J.K. Dukowicz, "A General Topology, Godunov Method," Comp. Phys. Comm., Vol. 48, pp. 65Ç73, 1988.

Aidun, J.B., and F.L. Addessio, "An Enhanced Cell Model with Nonlinear Elasticity," J. Comp. Mat., Vol. 30, p. 7248, 1996.

Amsden, A.A., and F.H. Harlow, J. Comp. Phys., Vol. 3, p. 80, 1968.

Amsden, A.A., H.M. Ruppel, and C.W. Hirt, "SALE: A Simplified ALE Computer Program for Fluid Flow at All Speeds," Los Alamos National Laboratory Report LA-8095, 1980.

Amsden, A.A., "KIVA-3: A KIVA Program with Block Structured Mesh for Complex Geometries," Los Alamos National Laboratory Report LA-12503-MS, March 1993.

Amsden, A.A., P.J. O'Rourke, and T.D. Butler, "KIVA-II: A Computer Program for Chemically Reactive Flows with Sprays," Los Alamos National Laboratory Report LA-11560-MS, May 1989.

Amsden, D.C., and A.A. Amsden, "The KIVA Story: A Pardigm of Technology Transfer," IEEE Trans. on Prof. Comm., Vol. 36, pp. 190Ç195, 1993.

Apen, P.G., E.L. Joyce, B.A. Kashiwa, and W.B. VanderHeyden, "Virtual National Laboratory for the Investigation of Multiphase Dynamics," Los Alamos National Laboratory Report LA-UR-95-2968, 1996.

Besnard, D.C., F.H. Harlow, R. Rauenzahn and C. Zemach, "Spectral Transport Model for Turbulence," Los Alamos National Laboratory Report LA-UR-92-1666, 1992.

[15] Birn, J., F. Iinoya, J.U. Brackbill, and M. Hesse, "A Comparison of MHD Simulations of Magnetotail Dynamics," Geophys. Res. Lett., 1995 (accepted).

Brackbill, J.U., and W.E. Pracht, "An Implicit, Almost-Lagrangian Algorithm for Magnetohydrodynamics," J. Comp. Phys., Vol. 13, p. 455-482, 1973.

[17] Brackbill, J.U., and H.M. Ruppel, "FLIP: A Method for Adaptively Zoned, Particle-In-Cell Calculations of Fluid Flows in Two Dimensions," J. Comp. Phys., Vol. 65, p. 314, 1986.

[18] Brackbill, J.U., "FLIP MHD: A Particle-In-Cell Method for Magnetohydrodynamics," J. Comput. Phys., Vol. 96, pp. 163Ç192, 1991.

[19] Brackbill, J.U., "On Modeling Angular Momentum and Vorticity in Compressible Fluid Flow," Comput. Phys. Comm., Vol. 47, pp. 1Ç16, 1987.

[20] Brackbill, J.U., "The Ringing Instability in Particle-In-Cell Calculations of Low-Speed Flow," J. Comput. Phys., Vol. 75, pp. 469Ç492, 1988.

[21] Brackbill, J.U., D. Kothe, C. Zemach, "A Continuum Method for Modeling of Surface Tension," J. Comp. Phys., Vol. 100, pp. 335-354, 1992.

[22] Bunge, H.P., and J.R.7, 1966

Harlow, F. H., "Hydrodynamic Problems Involving Large Fluid Distortion," J. Assoc. Comp. Mach., Vol. 4, p. 137, 1957.

[47] Harlow, F.H., D.O. Dickman, D.E. Harris, and R.E. Martin, "Two-Dimensional Hydrodynamic Calculations," Los Alamos National Laboratory Report LA-2301, 1959
.
Harlow, F.H., and B.D. Meixner, "The Particle-And-Force Method for Fluid Dynamics," Los Alamos National Laboratory Report LA-MS-2567, 1961.

Harlow, F.H., "Theory of Correspondence between Fluid Dynamics and Particle-And-Force Method," Los Alamos National Laboratory Report LAMS-2806, 1963.

Harlow, F.H., and E. Welch, "Numerical Calculation of Time-Dependent Viscous Incompressible Flow of Fluids with Free Surface," Phys. Fluids, Vol. 8, p. 2182, 1965.
Harlow, F.H., and P.I. Nakayama, "Turbulence Transport Equations," Phys. Fluids, Vol. 10, pp. 2323Ç2332, 1967.

Harlow, F.H., and P.I. Nakayama, "Transport of Turbulence Energy Decay Rate," Los Alamos National Laboratory Report LA-3854, 1968.

Harlow, F.H., A.A. Amsden, and C.W. Hirt, 2nd Int. Conf. on Num. Methods of Fluid Dynamics, Berkeley, CA, Sept. 1970.

Hirt, C.W., A.A. Amsden, and J.L. Cook, "An Arbitrary Lagrangian-Eulerian Computing Method for All Flow Speeds," J. Comp. Phys., Vol. 14, p. 227, 1974.

Hirt, C.W., B.D. Nichols, and N.C. Romero, "SOLA„A Numerical Solution Algorithm for Transient Fluid Flows," Los Alamos National Laboratory Report LA-5852, 1975.

Hirt, C.W., N.C. Romero, M.D. Torrey, and J.R. Travis, "SOLA-DF: A Solution Algorithm for Nonequilibrium Two-Phase Flow," Los Alamos National Laboratory Report LA-7725-MS (and NUREG/CR-0690), 1979.

Hirt, C.W., and B.D. Nichols, "Volume of Fluid (VOF) Method for the Dynamics of Free Boundaries," J. Comp. Phys., pp. 39, 201, 1981.

Hirt, C.W., J. Comp. Phys., Vol. 2, p. 339, 1968.

Johnson, J.N., and F.L. Addessio, "Tensile Plasticity and Ductile Fracture," J. Appl. Phys., Vol. 64, p. 6699, 1988.

Johnson, N.L., "Discrete Macroscopic Simulation of Fluid Flows," Doctoral Thesis, University of Wisconsin, Madison, 1983.

Johnson, N.L., and Y. Takagi, editors. Modeling in Diesel and SI Engines, SAE publication SP-1123, 1995.

[62] Johnson, N. L., A. A. Amsden, T. D. Butler, "Hydrogen Program Combustion Research: Three Dimensional Computer Modeling," Proceedings of the 1995 DOE/NREL Hydrogen Program Review, Vol. II, pp. 285-304, NREL/CP-430-20036, 1995.

Kashiwa, B.A., "A Generalized MAC Method for Incompressible Fluid Flow," Los Alamos National Laboratory Report LA-10853-MS, November 1986.

Kashiwa, B.A., "A Predictor-Corrector Method for Calculation of Incompressible Fluid Flow Dynamics," Los Alamos National Laboratory Report LA-10854-MS, November 1986.

Kashiwa, B.A., "Statistical Theory of Turbulent Incompressible Multimaterial Flow," University of Washington Doctoral Thesis, Los Alamos National Laboratory Report LA-11088-T, 1987.

Kashiwa, B.A., N.T. Padial, R.M. Rauenzahn, and W.B. VanderHeyden, "A Cell-Centered ICE Method of Multiphase Flow Simulations," in Proceedings, ASME Symposium on Numerical Methods for Multiphase Flows, Lake Tahoe, NV, 19Ç23 June 1994.

Kashiwa, B.A., "Reactive Multiphase Flow Simulation Workshop Summary," W.B. VanderHeyden, editor, Los Alamos National Laboratory Report LA-UR-95-2194, June 1996.

[68] Kothe, D., and W. Rider, "Comments on Modeling Interfacial Flows with Volume-of-Fluid Methods," Los Alamos National Laboratory, LA-UR-94-3384, 1994, submitted to J. Comp. Phys. , Feb. 1995.

[69] Kothe, D., C. Zemach and A. Chaumeazea, manuscript in preparation, 1996.

R. H. Kraichnan, "The Structure of Isotropic Turbulence at Very High Re, "The Application of a Material-Spatial Numerical Method to Penetration," in New Methods in Transient Analysis, ASME, pp. 91Ç102, 1992.

[94] Sulsky, D., and H.L. Schreyer, "A Particle Method with Large Rotations Applied to the Penetration of History-Dependent Materials," in Symposium on Advances in Numerical Simulation Techniques for Penetration and Perforation of Solids, The American Society of Mechanical Engineers, 1993.

[95] Sulsky, D., and H.L. Schreyer, "The Particle-In-Cell Method as a Natural Impact Algorithm," Sandia National Laboratories, Contract No. AC-1801, 1993.

Travis, J.R., C.W. Hirt, and W.C. Rivard, "Multidimensional Effects in Critical Two-Phase Flow," Nuc. Sci. Eng., Vol. 68, p. 338, 1978.

Viecelli, A., J. Comp. Phys., Vol. 4, p. 543, 1969.

[98] Walton, O.R., and R.L. Braun, "Stress Calculations for Assemblies of Inelastic Spheres in Uniform Shear," Acta Mech., Vol. 63, pp. 73-86, 1986.

[99] Youngs, D. L., "Time-Dependent Multi-Material Flow with Large Fluid Distortion," in Numerical Methods for Fluid Dynamics, edited by K. W. Morton and M. J. Baines, pp. 273-285, 1982.

[100] Youngs, D. L. , "An Interface Tracking Method for a 3D Eulerian Hydrodynamics Code," Technical Report 44/92/35, AWRE, 1984.

[101] Zhang, D.Z., and A. Prosperetti, "Averaged Equations for Inviscid Disperse Two-Phase Flow," J. Fluid Mech., Vol. 267, pp. 185-219, 1994.

The full copy of this paper is "The Legacy and Future of CFD at Los Alamos" (424Kb pdf file) which is LA-UR-1426 by Norman L. Johnson.

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