Up: Main Previous: Acknowledgements
References
- 1
- Modern Composite Materials, edited by Lawrence J.
Broutman and Richard H. Krock (Addison-Wesley, Reading, PA,
1967).
- 2
- Uchikawa, H., "Similarities and Discrepancies of
Hardened Cement Paste, Mortar, and Concrete from the Standpoint
of Composition and Structure", J. of Research of the Onoda Cement
Company, Vol. 40 (119), pp. 1-24, 1988.
- 3
- Zimbelman, R., "A Contribution to the Problem of
Cement-Aggregate Bond", Cement and Concrete Research, Vol. 15,
pp. 801-8, 1985.
- 4
- Hoshino, M., "Differences of the w/c Ratio, Porosity,
and Microscopical Aspect Between the Upper Boundary Paste and the
Lower Boundary Paste of the Aggregate in Concrete", Materials
and Structures, Vol. 21 (125), pp. 336-40, 1988.
- 5
- Scrivener, K.L., and Gartner, E.M., "Microstructural
Gradients in Cement Paste Around Aggregate Particles", Materials
Research Society Symp. Proc., Vol. 114, pp. 77-85, 1988.
- 6
- Monteiro, P.J.M., Gjorv, O.E., and Mehta, P.K.,
"Microstructure of the Steel-Cement Paste Interface in the
Presence of Chloride", Cement and Concrete Research, Vol. 15, pp.
781-4,1985.
- 7
-
Garboczi, E.J., and Bentz, D.P.,
"Digital Simulation
of the Aggregate-Cement Paste Interfacial Zone in Concrete",
Journal of Materials Research 6, 196-201 (1991).
- 8
- Detwiler, R.J., and Mehta, P.K., "Chemical and
Physical Effects of Silica Fume on the Mechanical Behavior of
Concrete", ACI Mats. J., Vol. 86, pp. 609-14, 1989.
- 9
- Kohno, K., Aihara, F., and Ohno, K., "Relative
Durability Properties and Strengths of Mortars Containing Finely
Ground Silica and Silica Fume", ACI SP 114-39, Fly Ash, Silica
Fume,and Natural Pozzolans in Concrete, edited by V.M. Malhotra,
pp. 815-26, 1989.
- 10
- Nagataki, S., and Ujike, I., "Air Permeability of
Concrete
Mixed with Fly Ash and Condensed Silica Fume", ACI SP 91-52,
Fly Ash, Silica Fume, and Natural Pozzolans in Concrete,
edited
by V.M. Malhotra, pp. 1049-68, 1986.
- 11
- Scrivener, K.L, Bentur, A., and Pratt, P.L.,
"Quantitative
Characterization of the Transition Zone in High Strength
Concretes", Advances in Cement Research, Vol. 1 (4), pp. 230-
7,
1988.
- 12
- Bentur, A., and Cohen, M., "Effect of Condensed
Silica Fume on
the Microstructure of the Interfacial Zone in Portland Cement
Mortars", J. Amer. Ceram. Soc., Vol. 70 (10), pp. 738-43,
1987.
- 13
- Bentur, A., Goldman, A., and Cohen, M., "The
Contribution of
the Transition Zone to the Strength of High Quality Silica
Fume
Concretes", Materials Research Society Symp. Proc., Vol. 114,
pp. 97-103, 1988.
- 14
- Roberts, L.R., "Microsilica in Concrete I", in
Materials
Science of Concrete Vol. 1, edited by J.P. Skalny (American
Ceramic Society, Westerville, OH, 1989).
- 15
- Goldman, A., and Bentur, A., "Bond Effects in High-
Strength
Silica-Fume Concretes", ACI Materials Journal, Vol. 86 (5),
pp.
440-7, 1989.
- 16
- Garboczi, E.J., and D.P. Bentz, "Fundamental
Computer Simulation Models for Cement-Based
Materials", in Materials Science of Concrete Vol. II,
edited by Jan Skalny (American Ceramics Society,
Westerville, Ohio, 1990), in press.
- 17
- Bentz, D.P., and Garboczi, E.J., "A Digitized
Simulation Model
for Microstructural Development", in
Advances in Cementitious Materials, ed. S. Mindess, Ceramics
Transactions 16 (1991), pp. 211-226.
- 18
- Bentz, D.P., Gingold, D.B., Garboczi, E.J., Lobb,
C.J., and
Jennings, H.M., "Diffusion Studies in a Digital-Image-Based
Cement Paste Microstructural Model", ibid.
- 19
- Bentz, D.P., and Garboczi, E.J., "Digitized Direct
Simulation Model of the Microstructural Development of
Cement Paste", in Physical
Phenomena in Granular Solids, edited by P. Sheng
(Materials Research Society, Pittsburgh, 1990).
- 20
- S. Mindess and J.F. Young, Concrete (Prentice-Hall,
Englewood
Cliffs, NJ, 1981).
- 21
- Young, J.F., and Hansen, W., "Volume Relationships
for CSH
Formation Based on Hydration Stoichiometry", Materials
Research
Society Symp. Proc., Vol. 85, pp. 313-22, 1987.
- 22
- Rodger, S.A., and Groves, G.W., "The Microstructure
of
Tricalcium Silicate/ Pulverized Fuel Ash Blended Cement
Pastes", Advances in Cement Research, Vol. 1 (2), pp. 84-91,
1988.
- 23
- Wu, Z.Q., and Young, J.F., "The Hydration of
Tricalcium
Silicate in the Presence of Colloidal Silica", J. Mat. Sci.,
Vol. 19, pp. 3477-86, 1984.
- 24
- Hooton, R.D., "Permeability and Pore Structure of
Cement Pastes
Containing Fly Ash, Slag, and Silica Fume", ASTM STP 987,
Blended Cements, edited by G. Frohnsdorff, 1986.
- 25
- Marsh, B.K., Day, R.L., and Bonner, D.G., "Pore
Structure
Characteristics Affecting the Permeability of Cement Paste
Containing Fly Ash", Cement and Concrete Research, Vol. 15,
pp.
1027-38, 1985.
- 26
- Saito, M., and Kawamara, M., "Effect of Fly Ash and
Slag on the
Interfacial Zone Between Cement and Aggregate", ACI SP 114-
32,
Fly Ash, Silica Fume, and Natural Pozzolans in Concrete,
edited
by V.M. Malhotra, pp. 669-88, 1989.
- 27
- Beedle, S.S., Groves, G.L., and Rodger, S.A., "The
Effect of
Fine Pozzolanic and Other Particles on the Hydration of C3S",
Advances in Cement Research, Vol. 2 (5), pp. 3-8, 1989.
- 28
- Berry, E.E., Hemmings, R.T., Langley, W.S., and
Carrette, G.G.,
"Beneficiated Fly Ash: Hydration, Microstructure, and
Strength
Development in Portland Cement Systems", ACI SP 114-11, Fly
Ash, Silica Fume, and Natural Pozzolans in Concrete, edited
by
V.M. Malhotra, pp. 241-73, 1989.
- 29
- Sybertz, F., "Comparison of Different Test Methods
for Testing
the Pozzolanic Activity of Fly Ashes", ACI SP 114-22, Fly
Ash,
Silica Fume, and Natural Pozzolans in Concrete, edited by
V.M.
Malhotra, pp. 477-97, 1989.
- 30
-
Bentz, D.P., and Garboczi, E.J.,
"Percolation of Phases in a Three-Dimensional Cement Paste Microstructural
Model", Cement and Concrete Research 21,
325-344 (1991).
Up: Main Previous: Acknowledgements