Abstract
In order to realize the diffusion law of segmental grouting in muddy fault of tunnel engineering, a three-dimensional grouting diffusion simulation test has been done. Three times of grouting operation have been done for three adjacent sections in grouting pipe. Grouting pressure, injection rate, soil pressure field, and seepage pressure field have been real-time monitored in three grouting stages. The effect of segmental grouting operation on soil pressure field and effective stress field has been analyzed. Results show that previous grouting operation can affect later grouting operation. Due to previous grouting operation, the grouted stratum can be compacted and grouting diffusion will conquer greater resistance in later grouting stages. Correspondingly, grouting pressure increases and injection rate decreases in the later grouting stage. There exists a limited influence range for a single grouting operation. For every grouting stage, soil pressure and effective stress in the section which the injection hole locates in are affected effectively by grouting operation. By contrast, soil pressure and effective stress in section away from injection hole are affected relatively weakly by grouting operation. With distance to injection hole increasing, compaction degree and reinforcement effect of grouted muddy fault decay in space. Multisegmental grouting method has significant advantages over single grouting method. Ineffectively compacted area by previous grouting operation can be effectively compacted by later grouting operation from adjacent injection hole. As a result, uniformity of grouting reinforcement effect can be improved, and weakly reinforcement area can be reduced.
Highlights
Muddy fault is often encountered in tunnel construction, which is characterized by loose structure, no self-stability [1,2,3,4]
For the traditional grouting method, a single grouting operation is done in the full length of the injection hole
For the segmental grouting method, the injection hole is divided into several sections and every section will be grouted independently
Summary
Muddy fault is often encountered in tunnel construction, which is characterized by loose structure, no self-stability [1,2,3,4]. Sun et al [17, 18] and Chen et al [19] studied the relationship between grout material parameters, grouting design parameters, and distribution rule of grout veins in fracture grouting when considering grout material as a Bingham fluid. They proposed that the grouting pressure is the main controlling factor of fracture grouting. A three-dimensional simulation test has been done to simulate the segmental grouting diffusion process in the muddy fault of the tunnel. The superiority of the segmental grouting method over the single grouting method has been verified
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