References
- Australian Standard, Methods of Testing Concrete-Determination of Indirect Tensile Strength of Concrete Cylinders, AS1012.10–1985.
- Castillo, C & AJ Durrani. Effect of transient high temperature on high strength concrete. ACI Materials Journal 1990;87(1):47–53.
- Cook NGW, VR Harvey. An Appraisal of Rock Excavation by Mechanical, Hydraulic, Thermal and Electromagnetic Means. Advances in Rock Mechanics 1974;I(B):1599–1615.
- Germanovich LN. Thermal spalling of rock, Advances in Fracture Research, Proceedings of the Ninth International Conference of Fracture, 1-5 April 1997, Sydney, Australia 1997;6:2771–2782.
- Harmathy TZ. Effect of Moisture On The Fire Endurance of Building Elements, ASTM Special Technology Publication (1965).
- Preston FW, HE White, Observations on spalling. Jam. Ceram. Soc., 17,137 (1938).
- Saito H. Explosive Spalling of Prestressed Concrete in Fire. Fire Resistance of Prestressed Concrete Proceedings of a Symposium at Braunschweig (1965).
- Somerton WH. Thermal Properties and temperature-related Behaviour of Rock/Fluid Systems (1992).
- Sullivan PJE, Zaman, A.A.A, Explosive Spalling of Concrete Exposed to High Temperatures, Proceedings of the First International Conference on Structural Mechanics in Reactor Technology, Berlin (1971) p H1/5.
- Thirumalai K., Process of thermal spalling behavior in rocks – an exploration study. Rock Mechanics - theory and practice, Proceedings Eleventh Symposium on Rock Mechanics held at California (1969).
- Cherepanov GP. Mechanics of Brittle Fracture (1979).