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压电传感技术在隧道与地下工程中的应用研究进展

汪波罗明睿金正佳董杰霍林生谢松明

西南交通大学学报2026，Vol.61Issue(3)：714-730,17.

西南交通大学学报2026，Vol.61Issue(3)：714-730,17.DOI:10.3969/j.issn.0258-2724.20260129

压电传感技术在隧道与地下工程中的应用研究进展

Research Advances in Application of Piezoelectric Sensing Technology in Tunnel and Underground Engineering

汪波 ¹罗明睿 ¹金正佳 ¹董杰 ¹霍林生 ²谢松明¹

作者信息

1. 西南交通大学极端环境岩土与隧道工程智能建养全国重点实验室,四川成都 610031||西南交通大学土木工程学院,四川成都 610031
2. 大连理工大学土木工程学院,辽宁大连 116024
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摘要

Abstract

As tunnel and underground engineering continue to advance toward greater burial depths and increasingly complex environmental conditions,monitoring of the surrounding rock-support system faces growing challenges,including high geostress,multi-physical field coupling,and the strong concealment of structural defects.Conventional monitoring methods have become increasingly inadequate for refined perception,particularly in the identification of localized concealed damage,the capture of dynamic events,and long-term environmental adaptability.Owing to its high-frequency response,active and passive integrated monitoring capability,and good embeddability,piezoelectric sensing technology has gradually expanded from bridges and geotechnical engineering into the field of tunnels and underground engineering.The fundamental mechanisms and monitoring modes of piezoelectric sensing technology were systematically reviewed,as well as its research progress in force and deformation monitoring of surrounding rock-support systems,lining defect identification,dynamic disturbance and disaster-response perception,performance degradation characterization under complex environments,and array-based,distributed,and wireless monitoring.The huge application potential of piezoelectric sensing technology was exhibited in local damage identification and dynamic response monitoring in underground engineering.Future research should focus on piezoelectric response mechanisms and parameter inversion,long-term service reliability under complex environments,array-based and systematic engineering deployment,and intelligent identification methods integrating mechanism constraints with data-driven approaches.Piezoelectric sensing technology is expected to be a key development direction for full-life cycle safety monitoring in intelligent tunnels and underground engineering.

关键词

地下工程/隧道结构健康监测/压电陶瓷/智能感知/损伤识别/多物理场耦合

Key words

underground engineering/tunnel structure health monitoring/piezoelectric ceramics/intelligent perception/damage identification/multi-physical field coupling

分类

交通工程

引用本文复制引用

汪波,罗明睿,金正佳,董杰,霍林生,谢松明..压电传感技术在隧道与地下工程中的应用研究进展[J].西南交通大学学报,2026,61(3):714-730,17.

基金项目

国家重点研发计划(2024YFF0507901) （2024YFF0507901）

甘肃省科技重点研发计划(22YF11GA307) 中央高校基本科研业务费专项(2682026CX078). （22YF11GA307）

西南交通大学学报

ISSN：0258-2724

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