Up: Main Previous: Acknowledgements

References

1

J.R. Clifton and L.I. Knab, NISTIR 89-4086 (U.S. Dept. of Commerce, Gaithersburg, MD, 1989).

2

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

3

P.K. Mehta and P.J.M. Monteiro, Concrete: Structure, Properties, and Materials (Prentice-Hall, Englewood Cliffs, New Jersey, 1993).

4

P. Goltermann, Amer. Conc. Inst. Mater. J. 91, 543 (1994).

5

C.M. Neubauer, H.M. Jennings, and E.J. Garboczi, "Three-Phase Model of the Elastic and Shrinkage Properties of Mortar," J. of Adv. Cem.-Based Mater. 4, 6 (1996).

6

S.P. Timoshenko and J.N. Goodier, Theory of Elasticity (McGraw-Hill, New York, 1970).

7

E. Herve and A. Zaoui, Int. J. Engng. Sci. 31, 1 (1993).

8

J. Skalny, V. Johansen, N. Thaulow, and A. Palomo, "DEF as a form of sulfate attack," Materiales de Construccion 46, No. 242, 1996, in press.

9

V. Johansen, N. Thaulow, and J. Skalny, Adv. Cem. Res. 5, 23 (1993).

10

E.J. Garboczi, "Finite element and finite difference programs for computing the linear electrical and elastic properties of digital images of random materials," National Institute of Standards and Technology Internal Report 6269 (1998).

11

E.J. Garboczi and P.E. Stutzman, " Finite Element Stress Computations Applied to Images of Damaged Concrete: A Possible New Diagnostic Tool for Concrete Petrography," Proceedings of the Twenty-Third International Conference on Cement Microscopy, April 29-May 4, 2001, Albuquerque, New Mexico, 2001.

12

C.F. Ferraris, J.R. Clifton, E.J. Garboczi, and F.L. Davis, "Stress due to alkali-silica reactions in mortars," in Mechanisms of Chemical Degradation of Cement-Based Systems, November 27-30, 1995, Materials Research Society Symposium Proceedings, Scrivener, K.L., Young, J.F., Eds., 75-82, (1997).

13

C.F. Ferraris, J.R. Clifton, E.J. Garboczi, and F.L. Davis, "Stress due to alkali-silica reactions in mortars: Further results," 4th ASCE Conference on Materials, Washington, D.C., 1996.