Abstract
The preload load on concrete during heating is considered to cause a ‘densification’ of cement mortar which led to the increased compressive strength. In order to assess the influence of coupled load and heating effects on porosity characteristics of concrete, the porosity of mortar after mechanical and thermal loading was measured by X-ray computed tomography (X-ray CT). The preload at pre-stress ratios of 0, 0.2, 0.4, and 0.6 (ratio of stress applied to the specimen to its compressive strength at room temperature) were applied on mortar specimens during heating. The residual compressive strengths of the heated and stressed mortar specimens were tested after cooling to room temperature. Combined analyses of the residual compressive strength test results and porosity test results, it shows that the porosity of the specimens under the coupled stressing and heating conditions were slightly lower than that under the unstressed conditions; however, the conclusion that the increase of compressive strength of stressed mortar was caused by the ‘densification’ of cement paste was insufficient. The preload reduced the cracks in the mortar, especially the crack induced due to the thermal mismatch in aggregates and hardened cement paste (HCP), and this may account for the increased compressive strength of stressed mortar.
Highlights
Exposure to fire is considered to be the most destructive process for concrete [1]
The results indicated that the difference between the load induced thermal strain (LITS) of concrete and cement paste was non-linearly related to temperature
Preload was applied to the mortar specimens before they were heated, and the loading position of the testing machine was kept constant during heating and cooling
Summary
Physical and chemical transformations take place in concrete under fire, which results in a remarkable decrease of compressive strength [2,3,4]. Experimental tests on concrete cored from a fired building indicated that the residual compressive strength of concrete was only 30% of its original strength, which significantly affected the safety of the structures [5]. Many researchers have conducted experiments on the compressive strength of concrete [4,6,7,8,9,10,11,12,13,14]. The investigations indicate that temperature has a great influence on the compressive strength of concrete, and the compressive strength decreases with the increase of temperature. The test on stressed concrete during heating has been employed by many researchers
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