References
- Hertz, K. D. "Danish Investigations on Silica Fume Concretes at Elevated Temperatures," ACI Materials Journal, July-August, 1992, pp. 345-347
- Han, C. G., "Concrete with Spalling Resistance," Mag. Korea Concrete Institute, Vol. 10, No. 6, 1998, pp. 5-10
- Han, C. G., Hwang, Y. S., Yang, S. H , and Gowripalan, N., "Performance of Spalling Resistance of High Performance Concrete with Polypropylene Fiber Contents and Lateral Confinement," Cement and Concrete Research, Vol. 35, 2005, pp. 1747-1753 https://doi.org/10.1016/j.cemconres.2004.11.013
- Kalifa, Pierre, Chene, Gregoire, and Galle, Christophe, "High-Temperature Behaviour of HPC with Polypropylene Fibres from Spalling to Microstructure," Cement and Concrete Research, Vol. 31, 2001, pp. 1487-1499 https://doi.org/10.1016/S0008-8846(01)00596-8
- Phan, L. T. and Carino, N. N., "Effects of Test Conditions and Mixture Proportions on Behavior of High Strength Concrete Exposed to High Temperature," ACI Materials Journal, Jan-Feb 2002, pp. 54-66
- Kodur, V. K. R. and Phan, L., "Critical Factors Governing the Fire Performance of High Strength Concrete Systems," Fire Safety Journal, Vol. 42, 2007, pp. 482-488 https://doi.org/10.1016/j.firesaf.2006.10.006
- Lee, B.Y., A Study on the Spalling Resistance of High Performance Concrete Subjected to Fire, Cheongju University Ph.D thesis, 2001
- Han, C. G., Yang, S. H., Han, C. P., Jee, S. W., Yoo, S. Y., and Pei, J. C., "Spalling Resistance of 60 MPa High Strength Concrete," Proceeding of conference in Architectural Institute of Korea, October 2006, pp. 361-354
- Han, C. G., Yang, S. H., Han, C. P., Lee, J. W., Pei, J. C., and Song Y. W., "Spalling Properties of High Strength Concrete with Various Specimen's Appearances and Fiber Contents," Proceeding of Conference in Architectural Institute of Korea, October 2006, pp. 469-472
- Han, C. G., Yang, S. H., Han, C. P., Lee, J. S., Pei, J. C., and Heo, Y. S., "Spalling Resistance of 80-100 MPa High Strength Concrete," Proceedings of Korea Concrete Institute, November 2006, pp. 481-484
- Han, C. G., Yang, S. H., Jee, S. W., Jin, H. L., Park, Y. G., and Heo, Y. S., "Spalling Properties of High Performance Concrete Designed with the Various Types of Coarse Aggregate," Proceedings of Korean Institute of Building Construction, November 2006, pp. 95-98
- Han, C.G., Yang, S.H., Han, C. P., Lee, J. S., Shin, J. G., and Song, Y. W., "Spalling Properties of High Performance Concrete Designed with the Various Blaine of Cement, Mineral Admixture Types and Fiber Contents," Proceedings of Korean Institute of Building Construction, November 2006, pp. 99-102
- Han, C. G., Yang, S. H., Lee, B. H., Jin H. L., Song, Y. W., and Heo, Y. S., "Spalling Properties of High Performance Concrete Made with Various Air, Moisture and PP Fiber Content Ratios," Proceedings of the Korea Institute for Structural Maintenance Inspection, October 2006, pp. 383-386
- KICT, Investigation of Shrinkage Properties on Ultra High Strength Concrete, Consigned Research Report by Cheongju University under Korea Institute of Construction & Technology, 2005
- Espinosa, Rosa Maria and Franke, Lutz, "Influence of the Age and Drying Process on Pore Structure and Sorption Isotherms of Hardened Cement Paste," Cement & Concrete Research, Vol. 36, 2006, pp. 1969-1984 https://doi.org/10.1016/j.cemconres.2006.06.010
- Doosan Industrial Development Co., Development of Improved Spalling Resistance and Fire Endurance Method of High Performance Concrete Subjected to Fire, Cheongju University Research Report, 2005