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Dynamic Tensile Properties and Energy Dissipation of High-Strength Concrete after Exposure to Elevated Temperatures

Nao Lv, Haibo Wang, Qi Zong, Mengxiang Wang, Bing Cheng

2020Materials21 citationsDOIOpen Access PDF

Abstract

In view of the devastating outcomes of fires and explosions, it is imperative to research the dynamic responses of concrete structures at high temperatures. For this purpose, the effects of the strain rate and high temperatures on the dynamic tension behavior and energy characteristics of high-strength concrete were investigated in this paper. Dynamic tests were conducted on high-strength concrete after exposure to the temperatures of 200, 400, and 600 °C by utilizing a 74 mm diameter split Hopkinson pressure bar (SHPB) apparatus. We found that the quasi-static and dynamic tensile strength of high-strength concrete gradually decreased and that the damage degree rose sharply with the rise of temperature. The dynamic tensile strength and specific energy absorption of high-strength concrete had a significant strain rate effect. The crack propagation law gradually changed from directly passing through the coarse aggregate to extending along the bonding surface between the coarse aggregate and the mortar matrix with the elevation of temperature. When designing the material ratio, materials with high-temperature resistance and high tensile strength should be added to strengthen the bond between the mortar and the aggregate and to change the failure mode of the structure to resist the softening effect of temperature.

Topics & Concepts

Materials scienceSplit-Hopkinson pressure barUltimate tensile strengthComposite materialAggregate (composite)DissipationDynamic loadingMortarStrain rateCompressive strengthTension (geology)SofteningDynamic TensionPhysicsThermodynamicsFire effects on concrete materialsStructural Response to Dynamic LoadsEngineering and Material Science Research