Abstract
Bond strength is one of the most important parameters and can affect the macroscopic mechanical properties and the damage state of rock to some degree. Coarse-grained sandstone was studied using the controlled variable method. The influence of parallel bond strength on the peak strength and failure mode of coarse-grained sandstone was simulated, and the evolution law of peak strength and the failure mode of bond strength were comprehensively analyzed. The results show that the peak strength of the rock was positively correlated with the bond strength; the difference in quantity between the tensile and shear cracks was negatively correlated with tensile bond strength and positively correlated with shear bond strength. With a tensile-shear bond strength ratio of less than 0.5, the peak strength of the rock was usually stable at the certain extreme value under a constant tensile bond strength. The tensile cracks were negatively correlated with the tensile-shear bond strength ratio, and the shear cracks were positively correlated with the tensile-shear bond strength ratio. The main failure mode of the coarse-grained sandstone in the weakly cemented stratum of the Hongqinghe coal mine is shear failure. The research results can be used to guide the ground control of other mine stopes or roadways with weak cementation lithology.
Highlights
Academic Editor: Simon DominyWeakly cemented coal measures are widespread in western China
Considering the real conditions of weakly cemented rocks in western mining 3areas, of 13 the influence of the bond strength on the peak strength and the failure mode of the rocks were investigated through numerical simulation
If the if shear bond strength ranged to 27 MPa, the peak strength was in the stable tensile bond strength or the shearfrom bond19strength increased, the value of the peak strength fluctuation stage
Summary
Cemented coal measures are widespread in western China. the diagenesis environment in western China is different from that in central and eastern. The mechanical properties and failure mode of weakly cemented rocks can be further explored by studying the relationship between bond strength and rock strength. Considering the real conditions of weakly cemented rocks in western mining 3areas, of 13 the influence of the bond strength on the peak strength and the failure mode of the rocks were investigated through numerical simulation. Article onlymodel studies the influence bond element particle model can be used to simulate many kinds of mechanical properties of strength (tensile bond strength and shear bond strength) on rock failure. This article compression, only studies the of bond granular coarse-grained sandstone model constructed, the main parameters strength flow (tensile bond strength and shear bondwas strength) on rockand failure.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
