Abstract:In order to solve the problems of environmental pollution and high cost caused by a large amount of cement consumed in the treatment of underground engineering disasters, this paper prepared the red mud-blast furnace slag-steel slag based ternary system solid waste grouting materials based on the synergetic theory, and systematically studied the effect of steel slag on the working performance and mechanical strength of the red mud- blast furnace slag binary system, combined with X-ray diffraction and Fourier transform infrared light. The mechanism was analyzed by means of spectrum, SEM and mercury porosimetry. The results showed that the steel slag can enhance the mechanical strength of the binary system of red mud-blast furnace slag. When the content of steel slag is 10%, the compressive strength can reach 12.78 MPa in 28 days, with an increase of 59.84%. After mechanical grinding and high temperature activation, the synergistic effect of steel slag can be further improved. With the decrease of steel slag particle size, the physical strength of slurry paste matrix gradually increases, and with the increase of activation temperature, the physical strength of stone first increases and then decreases. When the activation temperature is 700 ℃ and the particle size is 200 mesh, the mechanical strength of the stone body of red mud blast furnace slag steel slag based grouting material is the best, and the strength reaches 15.1 MPa in 28 days. In addition, the addition of steel slag can also promote the setting of red mud blast furnace slag based slurry, shorten the setting time and reduce the fluidity of slurry. The micro analysis showed that the steel slag can participate in the hydration reaction of red mud- blast furnace slag system, and the steel slag particles have filling effect in the slurry paste matrix, making the paste matrix more dense, thus improving the physical strength of the paste matrix. In addition, under high temperature conditions, glauberite, dicalcium silicate, tricalcium silicate and calcium aluminate cementitious minerals are formed in the steel slag, which can promote the formation of ettringite and calcium aluminate hydrate and enhance the strength.