Akkaya, Y., Voigt, T., Subramaniam, K.V., and Shah, S.P., “Nondestructive Measurement of Concrete Strength Gain by an Ultrasonic Wave Reflection Method,” Materials and Structures, 2002, in press.

Voigt, T., Akkaya, Y., and Shah, S.P., “Early Age Mortar and Concrete Strength by Ultrasonic Wave Reflections,” ASCE Journal of Materials in Civil Engineering, 2002, in press.

Voigt, T., Akkaya, Y., and Shah, S.P., “Determination of Early Age Concrete Strength by a Reflective Ultrasonic Technique,” Proceedings, 6th International Symposium on Utilization of High Strength/High Performance Concrete, Koenig, Dehn and Faust (Ed.), 2002, pp. 1489-1501.

Chariton, T., Kim, B., and Weiss, W.J., (2002) "Using Passive Acoustic Energy to Quantify Cracking in Volumetrically Restrained Cementitious Systems," ASCE-EMD

Chariton, T., and Weiss, W.J., (2002) " Using Acoustic Emission to Monitor Damage Development in Mortars Restrained from Volumetric Changes," Concrete: Material Science to Application, A Tribute to Surendra P. Shah, ed. P. Balaguru, A. Namaan, W. Weiss, ACI SP-206, pp. 205-218

Hossain, A. B., and Weiss, W.J., "Assessing Residual Stress Development and Stress Relaxation in Restrained Concrete Ring Specimens," (Accepted - Cement and Concrete Composites)

Hossain, A., Pease, B., and Weiss, W.J., (2003) "Quantifying Restrained Shrinkage Cracking Potential In Concrete Using The Restrained Ring Test With Acoustic Emission" (Transportation Research Board)

Kim, B., and Weiss, W.J., "Using Acoustic Emission to Quantify Damage in Restrained Fiber Reinforced Cement Mortars" (Accepted - Cement and Concrete Research)

Lawler, J., Zampini, D., and Shah, S.P., "Permeability of Cracked Hybrid Fiber Reinforced Mortar under Load," ACI Materials Journal, July-August, 2002, pp. 379-385.

Qi, C., Weiss, W.J., and Olek, J., "Characterization of Plastic Shrinkage Cracking in Fiber Reinforced Concrete Using Semi-Automated Image Analysis," (Accepted - Concrete Science and Engineering)

Neithalath, N., Weiss, W.J., and Olek, J., "Acoustic Performance and Damping Behavior of Cellulose-Cement Composites," (Accepted - Cement and Concrete Composites)

Weiss, W.J., and Furgeson, S., "Restrained Shrinkage Testing: The Impact of Specimen Geometry on Quality Control Testing for Material Performance Assessment," Concreep 6: Creep, Shrinkage, And Curability Mechanic of Concrete and Other Quasi-Brittle Materials, ed., Ulm, F. J., Bazant, Z. P., and Wittman, F. H., Elsevier, August 22-24 Cambridge MA © 2001, pp. 645-651

Weiss, W.J., and Shah, S. P., (2002) "Restrained Shrinkage Cracking: The Role of Shrinkage Reducing Admixtures and Specimen Geometry," Materials and Structures, March 2002, VOL. 35 - NO 246, pp. 85-91

Wang, K., Konsta-Gdoutos, M.S., and Shah, S.P., “Study of Cement-Kiln Dust – Slag Blended Cement for Durable Concrete,” International Symposium on High Performance Concrete: Workability, Strength and Durability, [2], 2000, pp. 805-814.

Konsta-Gdoutas, M.S., Wang, K., Babaian, P.M. and Shah, S.P., “Effect of Cement Kiln Dust (CKD) on the Corrosion of Reinforcement in Concrete,” Third International Conference on Concrete Under Severe Conditions of Environment and Loading (CONSEC ’01), [1], pp, 277-284.

Konsta-Gdoutas, M.S., Shah, S.P., and Battacharja, S., “Development and Performance of Cement Kiln Dust – Slag Cement,” International Congress: Challenges of Concrete Construction, 2002, pp. 5-11, in press.

Wang, K., Konsta-Gdoutos, M.S., and Shah, S.P., “Hydration, Rheology, and Strength of OPC-CKD-Slag Binders,” ACI Materials Journal, accepted.

Konsta-Gdoutos, M.S., and Shah, S.P. , “Synthesis and Properties of Novel Cementitious Matrices Based on Cement Kiln Dust – Slag Blends," Cement and Concrete Research, submitted.

Snyder K., Feng, X., Keen B., and Mason, T. O. "Estimating the Electrical Conductivity of Cement Paste Pore Solution from K+ and Na+ Concentrations," submitted for publication in Cement and Concrete Research (2002).

Yu, P., and Kirkpatrick, R. J. (2003) "Chloride binding to cement hydrate phases: binding isotherm studies, Cement and Concrete Research," submitted.

Taylor, H. F. W., and Kirkpatrick, R. J. (2003) "The Structure of Synthetic C-S-H Compounds," in Richardson, I. G., ed., The structure and behavior of C-S-H review and synthesis, RILEM, in press.

Brough, A. R., Katz, A., T., Sun, G. K., Struble, L. J., Kirkpatrick, R. J., and Young, J. F. (2001), "Adiabatically Cured Alkali Activated Cements Containing High Levels of Fly Ash: Formation of Zeolites and Aluminum-Substituted C-S-H," Cement and Concrete Research, 31, 1437-1447.