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BIBLIOGRAPHY

1
E.J. Garboczi and D.P. Bentz, "Computational Materials Science of Cement-Based Materials," MRS Bull., 28 (3), 50-54, 1993.

2
E.J. Garboczi and D.P. Bentz, "Computational Materials Science on the Internet," ACI Concr. Internat., 19 (12), 26-27 (1998).

3
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4
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5
D.P. Bentz and E.J. Garboczi, "Modelling the Leaching of Calcium Hydroxide from Cement Paste: Effects on Pore Space Percolation and Diffusivity," Mater. Struct., 25, 523-533, 1992.

6
D.P. Bentz, E.J. Garboczi, and N.S. Martys, "Application of Digital-Image-Based Models to Microstructure, Transport Properties, and Degradation of Cement-Based Materials," in The Modelling of Microstructure and Its Potential for Studying Transport Properties and Durability, Ed. H.M. Jennings, J. Kropp, and K.L. Scrivener (Kluwer Academic Publishers, Dordrecht, 1996) 167-185.

7
D.P. Bentz, "Three-Dimensional Computer Simulation of Portland Cement Hydration and Microstructure Development," J. Am. Ceram. Soc., 80 (1), 3-21, 1997.

8
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9
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10
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11
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12
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13
K.L. Scrivener, and P.L. Pratt, "Characterization of Interfacial Microstructure," in Interfacial Transition Zone in Concrete, Ed. J.C. Maso (E & FN Spon, London, 1996) 3-17.

14
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15
D.P. Bentz and P.E. Stutzman, "SEM Analysis and Computer Modelling of Hydration of Portland Cement Particles," in Petrography of Cementitious Materials, Ed. S.M. DeHayes and D. Stark (ASTM, Philadelphia, PA, 1994) 60-73.

16
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17
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18
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19
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20
D.P. Bentz, P. Coveney, E.J. Garboczi, M. Kleyn, and P.E. Stutzman, "Cellular Automaton Simulations of Cement Hydration and Microstructure Development," Modell. Simul. Mater. Sci. Eng., 2 (4), 783-808, 1994.

21
P.J. Pimienta, E.J. Garboczi, and W.C. Carter, "Cellular Automaton Algorithm for Surface Mass Transport due to Curvature Gradients: Simulations of Sintering," Comput. Mater. Sci., 1, 63-77, 1992.

22
J.A. Spittle and S.G.R. Brown, "A Cellular Automaton Model of Steady-State Columnar-Dendritic Growth in Binary Alloys," J. Mater. Sci., 30, 3989-3994, 1995.

23
T. Karapiperis, "Cellular Automaton Model of Precipitation/Dissolution Coupled with Solute Transport," J. Stat. Phys., 81, 165-180, 1995.

24
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25
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26
E.J. Garboczi and D.P. Bentz, "The Microstructure of Portland Cement-Based Materials: Computer Simulation and Percolation Theory," MRS Spring Meeting, 1998.

27
D.P. Bentz and E.J. Garboczi, Percolation of Phases in a Three-dimensional cement Paste Microstructural Model," Cem. Concr. Res., 21 (2/3), 325-344, 1991.

28
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29
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30
J.A. Quiblier, "A New Three-Dimensional Modeling Technique for Studying Porous Media," J. Colloid. Inter. Sci., 98 (1), 84-102, 1984.

31
D.P. Bentz and N.S. Martys, "Hydraulic Radius and Transport in Reconstructed Model Three-Dimensional Porous Media," Transport in Porous Media, 17 (3), 221-238, 1994.

32
D.A. Quenard, K. Xu, H.M. Kunzel, D.P. Bentz, and N.S. Martys, "Microstructure and Transport Properties of Porous Building Materials," Mater. Struct., 31 (209), 317-324, 1998.

33
D.P. Bentz, E.J. Garboczi, and D.A. Quenard, "Modelling Drying Shrinkage in Reconstructed Porous Materials: Application to Porous Vycor Glass," Modell. Simul. Mater. Sci. Eng., 6, 1-26, 1998.

34
N.J. Carino, "The Maturity Method: Theory and Application," Cem. Concr. Aggregates, 6 (2), 61-73, 1984.

35
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36
T. Knudsen, "The Dispersion Model for Hydration of Portland Cement I. General Concepts," Cem. Concr. Res., 14, 622-630, 1984.

37
D.P. Bentz, V. Waller, and F. de Larrard, "Prediction of the Adiabatic Temperature Rise in Conventional and High-Performance Concretes Using a 3-D Microstructural Model," Cem. Concr. Res., 28 (2), 285-297, 1998.

38
RILEM Technical Committee 66-MMH, "Mathematical modelling of hydration of cement: The hydration of tricalcium aluminate and tetracalcium aluminoferrite in the presence of calcium sulfate," Mater. Struct., 19, 137- , 1986.

39
Handbook of Chemistry and Physics, 63rd ed., (CRC Press, Boca Raton, FL, 1982) B73-B166 and D52-D95.

40
D.P. Bentz, K.A. Snyder, and P.E. Stutzman, "Microstructural Modelling of Self-Desiccation During Hydration," in Self-Desiccation and Its Importance in Concrete Technology, Ed. B. Persson and G. Fagerlund (Lund Institute of Technology, Lund, Sweden, 1997) 132-140.

41
A. Nonat, "Interactions Between Chemical Evolution (Hydration) and Physical Evolution (Setting) in the Case of Tricalcium Silicate," Mater. Struct., 27, 187-195, 1994.

42
S.P. Jiang, J.C. Mutin, and A. Nonat, "Studies on Mechanism and Physico-Chemical Parameters at the Origin of Cement Setting: I. The Fundamental Processes Involved During the Cement Setting," Cem. Concr. Res., 24 (4), 779-789, 1995.

43
T.C. Powers, L.E. Copeland, and H.M. Mann, PCA Bulletin, 10, 1959.

44
E.J. Garboczi and D.P. Bentz, "Computer Simulation of the Diffusivity of Cement-Based Computer Simulation of the Diffusivity of Cement-Based Materials," J. Mater. Sci., 27, 2083-2092, 1992.

45
Bentz, D.P., Garboczi, E.J., and Lagergren, E.S., "Multi-Scale Microstructural Modeling of Concrete Diffusivity: Identification of Significant Variables," Cem. Concr. Aggregates, 20 (1), 129-139, 1998.

46
S. Mindess and J.F. Young, Concrete (Prentice-Hall, Englewood Cliffs, NJ, 1981).

47
V. Waller, F. de Larrard, and P. Roussel, 4th Int. Symp. Utilization of High-Strength/High-Performance Concrete, RILEM, pp. 415-421, May 1996.

48
Thermal Cracking in Concrete at Early Ages (E & FN Spon, London, 1995).

49
D.P. Bentz and S. Remond, "Incorporation of Fly Ash into a 3-D Cement Hydration Microstructure Model," NISTIR 6050, U.S. Department of Commerce, August 1997.

50
J.R. Clifton and L.I. Knab, "Service Life of Concrete," NISTIR 89-4086, U.S. Department of Commerce, 1989.


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