Residual compressive strength and microstructure of high performance concrete after exposure to high temperature

Experimental programs were carried out tl, study compressive strength and microstructure of high performance concrete (HPC) subjected to high temperature compared with normal strength concrete (NSC). After the concrete specimens were exposed to a peak temperature of 800 degrees C, the compressive strength was tested. Changes of porosity and pore size distribution of the concrete were measured by using mercury intrusion porosimetry (MIP). Test results show that high performance concrete had higher residual strength although the strength of high performance concrete degenerated much more than the normal strength concrete after high temperature exposed. Variations in pore structure of high performance concrete after high temperature indicated the degradation of the mechanical properties. A model by optimizing the parameters ill Ryshkewitch model was developed to predict the relationship between porosity and compressive strength of the high performance concrete.