Next: Computer programs for Up: Main Previous: Acknowledgements

References

1

Bentz, D.P., A Three-Dimensional Cement Hydration and Microstructure Program. I. Hydration Rate, Heat of Hydration, and Chemical Shrinkage, NISTIR 5756, U.S. Department of Commerce, November 1995 (available from National Technical Information Service).

2

Bentz, D.P., Journal of the American Ceramic Society, 80 (1), 3-21, 1997.

3

Bentz, D.P., Clifton, J.R., and Snyder, K.A., Concrete International, 18 (12), 42-47, 1996.

4

Struble, L.J. and Stutzman, P.E., Journal of Materials Science Letters, 8, 632-634, 1989.

5

Stutzman, P.E., ``Applications of Scanning Electron Microscopy in Cement and Concrete Petrography,'' Petrography of Cementitious Materials, ASTM STP 1215, edited by Sharon M. DeHayes and David Stark (American Society for Testing and Materials, Philadelphia, 1994), pp. 74-90.

6

Bentz, D.P. and Stutzman, P.E., ``SEM Analysis and Computer Modelling of Hydration of Portland Cement Particles,'' Petrography of Cementitious Materials, ASTM STP 1215, edited by Sharon M. DeHayes and David Stark (American Society for Testing and Materials, Philadelphia, 1994), pp. 60-73.

7

Castleman, K.R., Digital Image Processing (Prentice-Hall, Inc., Englewood Cliffs, NJ, 1979).

8

Berryman, J.G., Journal of Applied Physics, 57 (7), 2374-2384, 1985.

9

Jiang, S.P., Mutin, J.C., and Nonat, A., Cement and Concrete Research, 25 (4), 779-789, 1995.

10

Bentz, D.P., Schlangen, E., and Garboczi, E.J., ``Computer Simulation of Interfacial Zone Microstructure and Its Effect on the Properties of Cement-Based Composites,'' Materials Science of Concrete IV, edited by Jan P. Skalny and Sidney Mindess (American Ceramic Society, Westerville, OH, 1995), pp. 155-200.

11

Stauffer, D., Introduction to Percolation Theory (Taylor and Francis, London, 1985).

12

Law, A.M, and Kelton, W.D., Simulation Modeling and Analysis (McGraw-Hill, New York, 1982).

13

Taylor, H.F.W., Cement Chemistry (Academic Press, London, 1990).

14

Bentz, D.P. and Martys, N.S., Transport in Porous Media, 17 (3), 221-238, 1995.

15

Bullard, J.W., Garboczi, E.J., Carter, W.C., and Fuller, E.R., Computational Materials Science, 4, 1-14, 1995.

16

Bentz, D.P., Garboczi, E.J., and Martys, N.S., ``Application of Digital-Image-Based Models to Microstructure, Transport Properties, and Degradation of
Cement-Based Materials,'' Computer Modelling of Microstructure and Its Potential
Application to Transport Properties, edited by H.M. Jennings and J. Kropp (Kluwer Academic Publishers, The Netherlands, 1995), pp. 167-185.

17

Bentz, D.P. and Garboczi, E.J., Guide to Using HYDRA3D: A Three-Dimensional Digital-Image-Based Cement Microstructural Model, NISTIR 4746, U.S. Department of Commerce, January 1992.

18

Bentz, D.P. and Garboczi, E.J., Cement and Concrete Research, 21, 325-344, 1991.

19

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

20

Waller, V., DeLarrard, F., and Roussel, P., ``Modelling the Temperature Rise in Massive HPC Structures,'' 4th International Symposium on Utilization of High-Strength/High-Performance Concrete, Paris, Paper 170, 415-421, 1996.

21

Carino, N.J., Knab, L.I., and Clifton, J.R., Applicability of the Maturity Method to High-Performance Concrete, NISTIR 4819, U.S. Department of Commerce, May 1992.