Influence of novel polymer waterproofing membrane on mechanical properties of tunnel lining structure

Influence of novel polymer waterproofing membrane on mechanical properties of tunnel lining structure

•Four-point bending test was carried out on beams with waterproofing membrane.•The composite action of the beam was calculated quantitatively.•The numerical simulation with cohesive element agreed well with the test results. The composite shell lining of tunnels uses an adhesive waterproofing membra...

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Bibliographic Details
Published in:Construction & building materials Vol. 360; p. 129579
Main Authors: Jiang, Yajun, He, Bin, Zhao, Jumei, Pei, Huqiang, Liu, Jitai, Wang, Huqun
Format: Journal Article
Language:English
Published: Elsevier Ltd 19-12-2022
Subjects:
Composite shell lining
Four-point bending test
Numerical calculation model
Spray-applied waterproofing membrane
Numerical calculation model
DCA
Four-point bending test
Composite shell lining
DSL
SCL
CSL
SSL
Spray-applied waterproofing membrane
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Summary:•Four-point bending test was carried out on beams with waterproofing membrane.•The composite action of the beam was calculated quantitatively.•The numerical simulation with cohesive element agreed well with the test results. The composite shell lining of tunnels uses an adhesive waterproofing membrane to replace the traditional sheet waterproofing membrane, which can improve the waterproofing performance of the tunnel and provide excellent mechanical characteristics. To calculate and design the lining structure, it is necessary to evaluate the influence of the existence of the bond interface on the mechanical behaviour of the lining structures. In this study, a four-point bending test was performed on a reinforced concrete beam with a novel polymer waterproofing membrane and the degree of composite action was quantitatively calculated. Under the bonding effect of the waterproofing membrane, the beam with the waterproofing membrane had a certain degree of composite action, and its strength and stiffness were also significantly improved compared with the beam with a sheet waterproofing membrane. ABAQUS software was used to establish the numerical calculation model of the beam with a spray-applied waterproofing membrane verified by testing, and the influence of the interface on its mechanical behaviour was analysed. The degree of composite action also increases with an increase in the waterproofing membrane thickness and interface stiffness.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2022.129579