Tested were Ca(OH)2 absorption, secondary hydration, and mechanical properties of ultra-high performance concrete (UHPC) of different blending with materials of low-temperature rice husk ash (L-RHA) made by authors, Nano-SiO2, ordinary rice husk ash (O-RHA) provided by a factory and silica fume (SF). The results show that the ascending order of pozzolanic activity is Nano-SiO2＞L-RHA＞SF＞O-RHA and that the micro-cellular structure of L-RHA with an average diameter of 5.9μm can store water which can be used in hydration and internal curing. Furthermore, the combined effect of SF and L-RHA is better than a single one of them because of the good filling effect of SF and the high volcanic effect of L-RHA.