Surface modification of sepiolite and its application in one-component silicone potting adhesive

Abstract

Abstract In this study, the utilization of sepiolite (SEP), renowned for its remarkable water absorption capacity, in a one-component silicone potting adhesive was explored to evaluate its impact on the efficacy of tunnel crack injection adhesive. Initially, SEP underwent high-temperature calcination, and X-ray diffraction and thermogravimetric tests were conducted to analyze the influence of calcination on its crystal structure and water-absorption capacity, respectively. Following this, various coupling agents were employed to modify the SEP, and their respective impacts on the performance of the tunnel crack-filling adhesive were investigated. The outcomes revealed that KH550 exhibited the most effective modification. Subsequent analysis delved into the effect of varying the dosage of KH550 on adhesive performance, demonstrating optimal cost-effectiveness at a dosage of 2 phr. Furthermore, a comparative assessment of the adhesive’s performance in wet and dry interfaces revealed that the addition of SEP resulted in comparable bond strength between wet and dry interfaces, indicating minimal influence from the wet interface.