The thermal and structural effects of elevated temperatures on the basic creep of hardened cement paste

Miniature, saturated, hardened cement paste specimens were pretreated for 2 days at various temperatures in the range 20-92°C. Specimens were then loaded for 6 days and unloaded; immediate, creep and recovery strains were monitored, as were changes in the microstructure --polysilicate and nitrogen $

Concrete is a heterogeneous composite material with multiple components that have different thermal expansion properties. Internal stresses are generated if the concrete is rapidly heated or cooled, causing cracking in the micro-or macro-scale. If the coefficient of thermal expansion (CTE) of harden

Tests were performed on miniature, thin-wall, hardened cement paste specimens; specimens under load were dried at various rates, re-wet and then unloaded. Deformation was monitored throughout. Appropriate control specimens for shrinkage/swelling, basic creep and weight change were also tested. Rela

Mercury intrusion porosimetry (MIP) test is one of the techniques that have been widely used for analyzing the pore size distribution of hardened cement paste (hcp) and also for the determination of the critical pore width. This study presents the test results of the MIP experiments obtained for thr