Publications from Surendra Shah
TEA-21 Year 8
A215: Design and Application of Low Compaction Energy Concrete for Use in Slip-form Concrete Paving
Shah, S. (2007a). Improving the slipform process via material manipulation. In ACM 2007 Proceedings.
Shah, S. (2007b). Low compaction energy concrete for improved slipform casting of concrete pavements. ACI Materials Journal, 104(3):251–258.
TEA-21 Year 6/7
A497: Ultrasonic Technique for In-Situ Monitoring of the Setting, Hardening and Strength Gain of Concrete
Haecker, C., Garboczi, E., Bullard, J., Bohn, R., Sun, Z., Shah, S., and Voigt, T. (2005). Modeling the linear elastic properties of Portland cement paste. Cement and Concrete Research, 35(10):1948–1960.
Shah, S. and Voigt, T. (2005). New trends in concrete technology. In Proceedings, International Conference on Advances in Concrete Composites and Structures, volume 1, pages 3–10, Chennai, India.
Sun, Z. (2005). Monitoring the early-age properties of cementitious materials with ultrasonic wave reflection method at macro- and micro-structural levels. PhD thesis, Northwestern University, Evanston, Illinois.
Sun, Z. and Shah, S. (2006). Investigation of the viscoelastic properties of fresh Portland cement pastes with an ultrasonic wave reflection method. In Measuring, Monitoring and Modeling Concrete Properties: In Honor of Surendra P. Shah, Alexandroupolis, Greece.
Sun, Z., Voigt, T., and Shah, S. (2005a). Temperature effects on the strength evaluation of cement-based materials with an ultrasonic wave reflection technique. ACI Materials Journal, 102(4):272–278.
Sun, Z., Voigt, T., and Shah, S. (2006). Rheometric and ultrasonic investigations of viscoelastic properties of fresh Portland cement pastes. Cement and Concrete Research, 36(2):278–287.
Sun, Z., Ye, G., and Shah, S. (2005b). Microstructure and early age properties of Portland cement pastes-effects of the connectivity of the solid phases. ACI Material Journal, 102:122–129.
Van Breugel, K., Koenders, E., Shah, S., Sun, Z., Voigt, T., and Ye, G. (2005). Simulation and Modeling, pages 97–141. RILEM Publications SARL, Bagneux, France.
Voigt, T. (2005). The application of an ultrasonic shear wave reflection method for nondestructive testing of cement-based materials at early ages: an experimental and numerical analysis. PhD thesis, University of Leipzig, Germany.
Voigt, T., Grosse, C., Sun, Z., Shah, S., and Reinhardt, H. (2005a). Comparison of ultrasonic wave transmission and reflection measurements with P- and S-waves on early age mortar and concrete. Materials and Structures, 38(282):729–738.
Voigt, T. and Shah, S. (2006). Using the shear wave reflection method for advanced testing of early age cement-based materials. In Proceedings, Symposium on Advanced Testing of Fresh Cementitious Materials, Stuttgart, Germany. (on CD-ROM).
Voigt, T., Subramaniam, K., and Shah, S. (2005b). Monitoring the setting and hardening of cement-based materials with ultrasonic wave reflection methods, pages 97–141. RILEM Publications SARL, Bagneux, France.
Voigt, T., Sun, Z., and Shah, S. (2005c). Monitoring cementitious materials during setting and hardening with an ultrasonic shear wave reflection method. In Proceedings, International Conference on Concrete Repair, Rehabilitation and Retrofitting, Cape Town, South Africa. (on CD-ROM).
Voigt, T., Sun, Z., and Shah, S. (2006). Comparison of the ultrasonic wave reflection method and maturity method in evaluating the early-age compressive strength of mortar. Cement and Concrete Composites, 28(4):307–316.
Voigt, T., Ye, G., Sun, Z., Shah, S., and van Breugel, K. (2005d). Early age microstructure of Portland cement mortar investigated by ultrasonic shear waves and numerical simulation. Cement and Concrete Research, 35(5):858–866.
