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J. Baylor.
A numerical simulation of impact-induced damage of composite materials.
Master's thesis, University of Illinois at Urbana-Champaign, 1997.

T. Belytschko, R. L. Chiapetta, and H. D. Bartel.
Efficient large scale non-linear transient analysis by finite elements.
International Journal of Numerical Methods in Engineering, 10:579-596, 1976.

T. Belytschko and R. Mullen.
Stability of explicit-implicit mesh partitions in time integration.
International Journal for Numerical Methods in Engineering, 12:1575-1586, 1978.

T. Belytschko, P. Smolinski, and W. K. Liu.
Stability of multi-time partitioned integrators for first-order finite element systems.
International Methods in Applied Mechanics and Engineering, 49:281-297, 1985.

X. Bi, Z. Li, P. H. Geubelle, and J. Lambros.
Dynamic debonding and frictional push-out in model composite systems: numerical analysis.
Submitted to Mechanical Materials, 2001.

G. T. Camacho and M. Ortiz.
Computational modeling of impact damage in brittle materials.
International Journal of Solids and Structures, 33(20-22):2899-2938, 1996.

G. T. Camacho and M. Ortiz.
Adaptive lagrangian modelling of ballistic penetration of metallic targets.
Computer Methods in Applied Mechanics and Engineering, 142:269-301, 1997.

I. S. Chang, N. R. Patel, and S. Yang.
Titan IV SRMU anomaly and redesign analyses.
AIAA Paper 94-3284, June 1994.

W. J. T. Daniel.
The subcycled newmark algorithm.
Computational Mechanics, 20:272-281, Feb 1997.

A. de Andres, J. L. Perez, and M. Ortiz.
Elastoplastic finite element analysis of three-dimensional fatigue crack growth in aluminum shafts subjected to axial loading.
International Journal of Solids and Structures, 36:2231-2258, 1999.

B. D. Ferney, M. R. DeVary, and K. J. Hsia.
Oscillatory crack growth in glass.
Scripta Materialia, 41(3):275-281, 1999.

P. H. Geubelle and J. S. Baylor.
Impact-induced delamination of composites: a 2d simulation.
Composites B, 29:589-602, 1998.

P. H. Geubelle, C. Hwang, R. Fiedler, M. S. Breitenfeld, and A. Haselbacher.
Simulation of Dynamic Fracture Events in Solid Propellant Rockets.
AIAA Paper 2001-3953, July 2001.

M. Heath, R. Fiedler, and W. Dick.
Simulating solid propellant rockets at csar.
AIAA Paper 2000-3455, July 2000.

T. J. R. Hughes and W. K. Liu.
Implicit-explicit finite elements in transient analysis: Stability theory.
Journal of Applied Mechanics, 45:371-378, 1978.

John Wiley and Sons, Inc.
Concepts and Applications of Finite Element Analysis, 1989.

A. S. Kobayashi and S. Mall.
Dynamic fracture toughness of homalite-100.
Experimental Mechanics, (18):11-18, 1978.

K. K. Kuo and D. E. Kooker.
Coupling between nonsteady burning and structural mechanics of solid propellant grains.
In L.De Luca, E.W. Price, and M. Summerfield, editors, Chapter 13 of Nonsteady burning and combustion stability of solid propellants, Progress in Astronautics and Aeronautics, pages 465-517. AIAA, New York, 1990.

O. Lawlor.
CHARM++ finite element framework manual.

Y. C. Lu and K. K. Kuo.
Modeling and numerical simulation of combustion process inside a solid propellant crack.
Propellant, Explosives, Pyrotechnics, 19:217-226, 1994.

M. O. Neal and T. Belytschko.
Explicit-explicit subcycling with non-integer time step rations for structural dynamic systems.
pages 871-880, 1998.

A. Needleman.
A continuum model for void nucleation by inclusion debonding.
Journal of Applied Mechanics, 54:525-531, 1987.

A. Needleman.
Numerical modeling of crack growth under dynamic loading conditions.
Computational Mechanics, 19(6):463-469, 1997.

D. Padua.
CS320 Introduction to parallel programming for scientists and engineers.
Spring 2000.

T. Siegmund, N. A. Fleck, and A. Needleman.
Dynamic crack growth across an interface.
International Journal of Fracture, 85:381-402, 1997.

T. Siegmund and A. Needleman.
A numerical study of dynamic crack growth in elastic-viscoplastic solids.
International Journal of Solids and Structures, 34(7):769-787, 1997.

N. N. Smirnov.
Convective burning in channels and cracks in solid propellants.
Fizika Goreniya I Vzruva, 21(5):29-36, 1985.

P. Smolinski.
An explicit multi-time step integration method for second order equations.
Computer Methods in Applied Mechanics and Engineering, pages 25-34, 1989.

P. Smolinski.
Subcycling integration with non-integer time steps for structural dynamics problems.
Composites and Structures, 59(2):273-281, Sep 1996.

P. Smolinski, T. Belytschko, and W. K. Liu.
Stability of multi-time step partitioned transient analysis for first-order systems of equations.
International Methods in Applied Mechanics and Engineering, 65:115-125, 1987.

P. Smolinski and Y. Wu.
Stability of explicit subcylcing time integration with linear interpolation for first-order finite element semidiscretizations.
Computer Methods in Applied Mechanics and Engineering, pages 311-324, 1998.

W. G. Wilson, J. M. Anderson, and M. Vaner Meyden.
Titan IV SRM PQM-1 overview.
AIAA Paper 92-3819, July 1992.

L. R. Xu, Y. Y. Huang, and A. J. Rosakis.
Dynamic crack deflection and penetration at interfaces in homogeneous materials: Experimental studies and model predictions.
Journal of the Mechanics and Physics of Solids, 2001.

Mariusz Zaczek 2002-10-13