To study the size effect of nuclear power containment concrete (NPCC) under compressive dynamic performance, the cube\nconcrete specimens with 3 different cube sizes were measured at 10 different loading strain rates using a hydraulic servo, and the\nfailure mode and compressive strength of NPCC were compared and analyzed under different loading conditions. Based on the\ncomparative analysis of experiment results, the following conclusions can be drawn: the effect of loading strain rate has caused\nNPCC to develop from static strain rate, mainly cement cementitious layer damage and uniform distribution of cracks, to dynamic\nstrain rate, where there are partial coarse aggregate failures and oblique cracks as the main crack distribution. Due to the size effect,\nthe integrity of large-scale NPCC specimen after compression failure is relatively high. With the increase of loading strain rate and\ndecrease of cube size, compressive strength of NPCC is gradually increased, and, with the increase of loading strain rate, the size\neffect on the mechanical properties of NPCC becomes more significant. Moreover, this paper quantitatively analyzes the influence\nof the coupling effect of strain rate and size effect on the compressive strength of NPCC, and its mechanism is discussed in depth.\nThe research results are of great significance to the safety of nuclear power concrete containment.
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