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Benefits of SCC
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References
1. Skarendahl, Ǻ. and Petersson, Ö. (Ed.) Proceedings of the First International Symposium, RILEM TC 174-SCC. 1999, 790pp.
2. Ozawa, K. and Ouchi, M. (Ed.) Proceedings of the International Workshop on Self- Compacting Concrete, Kochi, Japan, JSCE Concrete Engineering Series 30, 1998, 400pp.
3. Proceedings of the First North American Conference on the Design and Use of Self-Consolidating Concrete, Chicago, USA, 2002, CD-ROM.
4. Proceedings of Knud Hojgaard Conference on Advanced Cement Based Material, June 2005. Denmark.
5. Grünewald, S. and Walraven, J.C. “Rheological measurements on self-compacting fibre reinforced concrete,” 2003, 3rd International Symposium on Self-Compacting Concrete, pp. 49-58.
6. Khayat, K.H. “Workability, testing, and performance of self-consolidating concrete,” ACI Materials Journal, V. 96, No. 3, 1999, pp. 346-353.
7. Coussor, P. Rheologie des Bouse et Laves Torrentielles-Etudes de Dispersions et Suspensions Concentrees, L’Institut National Polytechnique de Grenoble, et Etudes du Cemagref, 418pp.
8. Wallevik, O.H. and Gjoru, O.E. “Development of coaxial cylinder viscometer for fresh concrete,” Properties of Concrete, Proceeding of RILEM Colloqium, Hanover, 1990, pp.213-224.
9. Hu, C., de Lallard, F., Sedran, T., Boulay, C., Bosc, F., and Deflorenne, F. “Validation of BTRHEOM, the new rheometer for soft-to-fluid concrete” Materials and Structures, V. 29, No. 194, 1996, pp. 620-631.
10. Struble, L.J., Puri, U., and Ji, X. “Concrete rheometer,” Advances in Cement Research, V. 13, No. 2, 2001, pp. 53-63.
11. Ferraris, C.F. and Brower, L.E. Comparison of Concrete Rheometers: International Tests at MB (Cleveland OH, USA) in May, 2003, National Institute of Standards and Technology, NISTIR 7154, 2004. pp. 1-62.
12. Stauberg Greenwood, M, Fazio, F., Russotto, M., and Wilkosz, A. “Using the Atwood Machine to Study Stokes’ Law,” American Journal of Physics, V. 54, No. 10, 1986, pp.904-906.
13. Tran-Son-Tay, R., Beaty, B.B., Acker, D.N., and Hochmuth, R.M. “Magnetically driven, acoustically tracked, translating-ball rheometer for small, opaque samples,” Review of Scientific Instruments, V. 58, No. 8, 1988, pp. 1399-1404.
14. Gregori, A., Sun, Z., Douglas, R., Shah, S.P. and Bonen, D. “The evaluation of viscosity by using a novel viscometer for SCC,” Proceedings of the 2nd North American Conference on the Design and Use of Self-Consolidating Concrete and the 4th International RILEM Symposium on Self-Compacting Concrete, 2005, Chicago, USA., pp. 775-781.
15. Douglas, R., Gregori, A., Sun, Z. and Shah, S.P. “Investigations of the properties of SCC: a method for measuring thixotropy and viscosity,” Proceedings of Knud Hojgaard Conference on Advanced Cement Based Material, June 2005. Denmark.
16. Truesdell, C. and Rajagopal, K.R. An introduction to the mechanics of fluids, 2000, Boston, U.S.A., 277pp.
17. Sun, Z., Gregori, A., Ferron, D. and Shah, S.P. “Determining the rheological properties of SCC with a falling ball viscometer,” submitted to ACI Materials Journal, 2005.
18. Ferraris, C.F., Obla, K.H., and Hill, R. “The influence of mineral admixtures on the rheology of cement paste and concrete,” Cement and Concrete Research, V. 31, 2001, pp. 245-255.
19. Saak, A., Jennings, H.M., and Shah, S.P. “A generalized approach for the determination of yield stress by slump and slump flow,” Cement and Concrete Research, V. 34, No.3, 2004, pp. 363-371.
20. Ferraris, C.F. and Martys, N.S. “Relating fresh concrete viscosity measurements from different rheometers,” Journal of Research of the National Institute of Standards and Technology, V. 108, 2003, pp. 229-234.
21. Standard Test Method for Slump Flow and Stability of Hydraulic-Cement Self -Consolidating Concrete, Illinois Test Procedure SCC-2, July 1, 2004
22. Standard Test Method for Static Segregation of Hydraulic-Cement Self -Consolidating Concrete Using the Column Technique, Illinois Test Procedure SCC-5, July 1, 2004
23. Japan Society of Civil Engineers, Recommendation for Self-Consolidating Concrete, T. Omoto and K. Ozawa, eds., JSCE Concrete Engineering Series 31, 1999, pp.77
24. Bui, V.K., Montgomery D., Hinczak I., Turner K., “Rapid testing method for segregation resistance of self-compacting concrete”, Cement and Concrete Research, V. 32, No. 9, 2002, pp.1489–1496
25. Shen, L., Struble, L. and Lange, D. “Testing static segregation of SCC,” Proceedings SCC 2005, The 2nd North American Conference on the Design and Use of Self-Consolidating Concrete and the 4th International RILEM Symposium on Self-Compacting Concrete, Oct 2005, Chicago, USA, pp. 729-735.
26. Khayat, K.H., Pavate, T., Assaad, J., Jolicoeur, C., “Analysis of Variations in Electrical Conductivity to Assess Stability of Cement-Based Materials,” ACI Materials Journal, V. 100, No. 4, 2003, pp.342-350.
27. Khayat, K.H., Vanhove, Y., Pavate, T., Jolicoeur, C., “Non-Destructive Method to Evaluate Segregation of Concrete,” Proc., 2nd North American Conf. on the Design and Use of Self-Consolidating Concrete, Chicago, Nov. 2005.
28. Khayat, K.H., Assaad, J., Daczko, J., “Comparison of Field-Oriented Test Methods to Assess Dynamic Stability of Self-Consolidating Concrete,” ACI Materials Journal, V. 101, No. 2, 2004, pp. 168-176.
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