地震映像法在探明隧道底部隐伏岩溶中的研究

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (3832 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要 研究目的：在建高速铁路岩溶隧道的施工,要探明隧道底部影响隧道安全的隐伏岩溶进行工程整治,确定采用何种方法才能快速探明其岩溶的深度、性质和范围,由此提出采用地震映像法,本文对其展开研究。
研究结论：（1）采用地震映像法的偏移距、同相轴断裂宽度特征,与相邻测线斜向近距离同特征的平面物理连通,以及正验计算统计其岩溶波速,反验解释其岩溶形态并钻孔验证,达到快速探明隧道底部影响隧道安全的隐伏岩溶的深度、性质和范围可行;（2）能探明隧道底部多条测线下最大深度达30 m内不同深度的岩溶较发育和岩溶发育、充填黏土溶洞、空腔溶洞、残留洞渣,进行工程整治,整治要确定最佳有效方案,其分别对应于水泥注浆、高压旋喷桩、桩板结构或砌石支墩、清除残留洞渣,以及整治后的隧道底部强度稳定,不下沉不上拱,并确保岩溶水排泄畅通,就能确保隧道安全;（3）要重视隧道底部仰拱二次填充层施工质量的力棒敲击检测,振声均达质量完整的实响声;（4）本研究成果可为铁路、公路岩溶隧道等领域快速探明隧道底部影响隧道安全的隐伏岩溶的深度、性质和范围,确定最佳有效整治方案提供参考。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章

关键词 ：地震映像法, 快速探明, 岩溶, 工程整治, 强度稳定, 隧道安全

Abstract：Research purposes: In the construction of karst tunnel of high-speed railway, it is necessary to find out the hidden karst at the bottom of the tunnel, which affects the safety of the tunnel, and what method can be used to quickly find out the depth, nature and range of the karst, therefore, the seismic imaging method is proposed and studied in this paper.
Research conclusions: (1) Using the migration distance and fault width characteristics of the seismic imaging method, the plane physical connection with the adjacent survey line in oblique direction and short distance with the same characteristics, and the positive calculation and statistics of karst wave velocity, it is feasible to karst morpolohgy and drill holes to quickly discover the depth, nature and range of the hidden karst at the bottom of the tunnel which affects the safety of the tunnel. (2) It can detect the karst development and karst development, clay-filled karst caves, cavity karst caves and residual slag in different depths under the maximum depth of 30 m under the multiple survey lines at the bottom of the tunnel, and carry out engineering treatment, it is necessary to determine the best and effective scheme, which corresponds to cement grouting, high-pressure jet grouting pile, pile-board structure or masonry buttress, removal of residual slag, and the strength of the tunnel bottom after treatment is stable and does not sink or arch, and to ensure the smooth discharge of karst water, can ensure the safety of the tunnel. (3) We should pay attention to the inspection of the construction quality of the secondary filling layer of the inverted arch at the bottom of the tunnel. (4) The research results can be used to quickly find out the depth, nature and range of the hidden karst at the bottom of the tunnel, which affects the safety of the tunnel, to determine the best effective treatment program for reference.

Key words： seismic imaging method fast detection karst engineering regulation strength stability tunnel safety

收稿日期: 2024-07-25

PACS:

TU473.1+6

作者简介: ** 王树栋, 1982 年出生,男,高级工程师。

引用本文:

王树栋, 牟元存, 高树全, 李星, 刘祖富, 刘鑫, 常聚友. 地震映像法在探明隧道底部隐伏岩溶中的研究[J]. 铁道工程学报, 2024, 41(10): 52-56.
WANG Shudong, MU Yuancun, GAO Shuquan, LI Xing, LIU Zufu, LIU Xin CHANG Juyou. The Study of Seismic Imaging Method in Detecting Hidden Karst at the Bottom of Tunnel. Journal of Railway Engineering Society, 2024, 41(10): 52-56.

链接本文:

https://tdgcxb.crec.cn/CN/ 或 https://tdgcxb.crec.cn/CN/Y2024/V41/I10/52

[1]	TB 10013—2023,铁路工程物理勘探规范[S].TB 10013—2023, Code for Geophysical Prospecting of Railway Engineering[S].
[2]	TB 10038—2022, 铁路工程特殊岩土勘察规程[S].TB 10038—2022,Code for Special Soil and Rock Investigation of Railway Engineering[S].
[3]	付开隆,周羽,韦正雄,等,某高铁隧道岩溶水文地质特征及施工病害分析[J]. 铁道工程学报,2023(10):86-92.Fu Kailong, Zhou Yu, Wei Zhengxiong, etc.Karst Hydrogeological Characteristics and Construction Disease Analysis of a High-speed Railway Tunnel[J]. Journal of Railway Engineering Society,2023(10):86-92.
[4]	胡炜,谭信容,李奎,等.高压富水地区岩溶隧道防排水设计方案优化研究[J].高速铁路技术,2020(5):97-101.Hu Wei, Tan Xinrong, Li Kui, etc.Research on Optimization of Design Schemes for Waterproofing and Drainage of Karst Tunnels in High-pressure and Water-rich Areas[J]. High Speed Railway Technology,2020(5): 97-101.
[5]	TB 10753—2018, 高速铁路隧道工程施工质量验收标准[S].TB 10753—2018, Standard for Acceptance of Tunnel Works in High-speed Railway[S].