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Resilience of rock engineering: concept, mechanism, evaluation and enhancement

by Wanghua, Sui , Chang, Zhou , Chunni, Han

in Bolt-grouting system / Complex system science / Complex systems / Disturbances / Dynamic evolution process / Earth and Environmental Science / Earth Sciences / Engineering / Environment / Environmental Science and Engineering / Equilibrium analysis / Fracture toughness / Geoecology/Natural Processes / Geography / Grouting / Infrastructure / Natural Hazards / Qualitative analysis / Resilience / Resilience evaluation / Risk assessment / Rock / Rock engineering resilience / Rock masses / Rocks / Slope stability / Slope stabilization / Spraying / Static equilibrium

2025

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Resilience of rock engineering: concept, mechanism, evaluation and enhancement

by Wanghua, Sui , Chang, Zhou , Chunni, Han

2025

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Resilience of rock engineering: concept, mechanism, evaluation and enhancement

by Wanghua, Sui , Chang, Zhou , Chunni, Han

2025

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Journal Article

Resilience of rock engineering: concept, mechanism, evaluation and enhancement

Wanghua, Sui,

Chang, Zhou,

Chunni, Han

2025

Overview

Background Rock engineering systems face escalating threats from extreme climatic events and the complexities of deep engineering, necessitating robust resilience to withstand multi-hazard disturbances. Traditional methods, based on static equilibrium analysis, prove unsuited to address the dynamic, nonlinear interactions inherent in these systems. Objective This study proposes a resilience-oriented framework for rock engineering, emphasizing the system’s capacity to maintain or rapidly recover functionality following disturbances. The study proposes a conceptual model, evaluation method, and enhancement techniques to improve rock engineering resilience, based on the complex system science. Methods A unified disaster resilience management system is proposed, synergizing multi-field monitoring, risk assessment, and rapid recovery strategies. Three resilience-enhancing techniques are presented, including grouting reinforcement, resilient anchor support, and high-pressure anchor injection-spraying collaborative control, optimize stress redistribution and fracture resistance in rock masses. Results The framework redefines resilience as a quantifiable system property, enabling data-driven lifecycle management of geotechnical infrastructure. It provides actionable strategies to reconcile safety and sustainability in deep tunneling and slope stabilization projects. Conclusions By redefining resilience as a quantifiable system property rather than a qualitative goal, the framework enables data-driven lifecycle management of geotechnical infrastructure.

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Publisher

Springer International Publishing,Springer Nature B.V,SpringerOpen

Subject

Bolt-grouting system

/ Complex system science

/ Complex systems

/ Disturbances

/ Dynamic evolution process

/ Earth and Environmental Science

/ Earth Sciences