Investigation of FRP and SFRC Technologies for Efficient Tunnel Reinforcement Using the Cohesive Zone Model  

作　　者：Gang Niu Zhaoyang Jin Wei Zhang Yiqun Huang 

机构地区：[1]China Communications Construction Investment Development Co.,Ltd.,Fuzhou,350000,China [2]Rail Transit Branch of China Communications Construction Co.,Ltd.,Beijing,101317,China [3]School of Civil Engineering,Fujian University of Technology,Fuzhou,350118,China

出　　处：《Structural Durability & Health Monitoring》2024年第2期161-179,共19页结构耐久性与健康监测（英文）

基　　金：funded by the Scientific research startup Foundation of Fujian University of Technology(GY-Z21067 and GY-Z21026).

摘　　要：Amid urbanization and the continuous expansion of transportation networks,the necessity for tunnel construction and maintenance has become paramount.Addressing this need requires the investigation of efficient,economical,and robust tunnel reinforcement techniques.This paper explores fiber reinforced polymer(FRP)and steel fiber reinforced concrete(SFRC)technologies,which have emerged as viable solutions for enhancing tunnel structures.FRP is celebrated for its lightweight and high-strength attributes,effectively augmenting load-bearing capacity and seismic resistance,while SFRC’s notable crack resistance and longevity potentially enhance the performance of tunnel segments.Nonetheless,current research predominantly focuses on experimental analysis,lacking comprehensive theoretical models.To bridge this gap,the cohesive zone model(CZM),which utilizes cohesive elements to characterize the potential fracture surfaces of concrete/SFRC,the rebar-concrete interface,and the FRP-concrete interface,was employed.A modeling approach was subsequently proposed to construct a tunnel segment model reinforced with either SFRC or FRP.Moreover,the corresponding mixed-mode constitutive models,considering interfacial friction,were integrated into the proposed model.Experimental validation and numerical simulations corroborated the accuracy of the proposed model.Additionally,this study examined the reinforcement design of tunnel segments.Through a numerical evaluation,the effectiveness of innovative reinforcement schemes,such as substituting concrete with SFRC and externally bonding FRP sheets,was assessed utilizing a case study from the Fuzhou Metro Shield Tunnel Construction Project.

关 键 词：Tunnel segment FRP SFRC cohesive zone model constitutive model fracture process 

分 类 号：U45[建筑科学—桥梁与隧道工程]