考虑温度效应的板岩隧道围岩蠕变特性研究
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作者单位:

1.太原理工大学 矿业工程学院;2.同济大学 土木工程学院

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U451

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国家自然科学(No.41977227)


Study on creep characteristics of surrounding rockof slate tunnel considering temperature effect
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1.College of Mining engineering,Taiyuan University of Technology;2.School of Civil Engineering,Tongji University

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    摘要:

    板岩隧道围岩开挖后变形快、量值大且持续时间长,影响隧道施工安全以及后期营运长期稳定性。以西南地区某在建高速公路隧道为研究背景,开展围岩位移、温度0~120d现场监测试验,试验发现:(1)该隧道环境敏感性较强,隧道开挖后围岩应力释放,围岩处于受拉状态蠕变累积;(2)围岩位移大致呈幂律型累积规律,0~60d时累积速率较快,60d以后累积速率逐渐变缓,120d时位移时程曲线趋于收敛,最大位移达-9.93mm,最小位移为-0.05mm;(3)围岩监测温度与时间呈反比例衰减关系,温度随着时间增长而逐渐降低,120d以后,最终温度会与室外温度基本保持一致。基于温度变化规律,建立改进Harris温度-时间关系表达式,将其嵌入Heard蠕变模型,从而得到一个新的考虑温度效应的改进Heard蠕变本构模型。对比验证所建模型的可行性和合理性,并利用该模型预测围岩在500d后的蠕变变形规律。研究成果为隧道围岩蠕变特性研究及隧道施工、营运提供一定参考。

    Abstract:

    The deformation of surrounding rock of slate tunnel after excavation is fast, large and lasting for a long time, which affects the safety of tunnel construction and the long-term stability of later operation. Taking a highway tunnel under construction in Southwest China as the research background, the field monitoring test of surrounding rock displacement and temperature for 0~120 days is carried out. The test results show that: (1)The tunnel has strong environmental sensitivity, the surrounding rock stress is released after tunnel excavation, and the surrounding rock is in tension state and creep accumulation;(2)The displacement of surrounding rock shows a power-law accumulation law. The accumulation rate is fast from 0 to 60 days, and gradually slows down after 60 days. At 120 days, the displacement time history curve tends to converge, with the maximum displacement of -9.93 mm and the minimum displacement of -0.05 mm;(3)The monitoring temperature of surrounding rock has an inverse proportional attenuation relationship with time, and the temperature gradually decreases with time. After 120 days, the final temperature will be basically consistent with the outdoor temperature. Based on the law of temperature change, the improved Harris temperature time relationship expression is established and embedded into the head creep model, so as to obtain a new improved head creep constitutive model considering temperature effect. The feasibility and rationality of the model are verified, and the creep deformation law of surrounding rock after 500 days is predicted by using the model. The research results provide a certain reference for the study of creep characteristics of tunnel surrounding rock and tunnel construction and operation.

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  • 收稿日期:2021-08-30
  • 最后修改日期:2021-08-31
  • 录用日期:2022-04-26
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