TY - GEN
T1 - Seismic Response of Segmental Lining Tunnel by Using Shaking Table Test and Numerical Simulation
AU - Chen, Juntao
AU - He, Weiguo
AU - Song, Chaoye
AU - Yu, Haitao
AU - Yuan, Yong
N1 - Publisher Copyright:
© Springer Nature Singapore Pte Ltd. 2018.
PY - 2018
Y1 - 2018
N2 - Inner lining is generally proposed to improve the earthquake reliability of segmental lining tunnel. This paper focuses on the seismic response of segmental lining in rock ground and the influence of inner lining on the dynamic performance of tunnel structure. A series of large-scale (1:10) shaking table tests and numerical simulations are carried out to simulate the seismic response of the segmented tunnel with and without inner lining in rock mass. Key technical details of the test setup are introduced with particular focuses on: shaking table system, similitude design and relations between real tunnel and scaled model, modeling method, fabrication of model, sensor layout and input motions. In addition, a series of cases are conducted to study the influence of earthquake intensity, input motion and input direction on the seismic performance of tunnel section. Besides, numerical simulations corresponding to the test cases are conducted to validate the test result and to further study the seismic performance of segmental lining tunnel. Based on the result, peak acceleration, Fourier spectrum and joint extension are analyzed. Close attentions are paid to the effect of inner lining on segmental linings. Results indicate that inner lining leads to higher peak acceleration at transverse direction due to the increase of stiffness. In addition, the inner lining reduces joint extension significantly.
AB - Inner lining is generally proposed to improve the earthquake reliability of segmental lining tunnel. This paper focuses on the seismic response of segmental lining in rock ground and the influence of inner lining on the dynamic performance of tunnel structure. A series of large-scale (1:10) shaking table tests and numerical simulations are carried out to simulate the seismic response of the segmented tunnel with and without inner lining in rock mass. Key technical details of the test setup are introduced with particular focuses on: shaking table system, similitude design and relations between real tunnel and scaled model, modeling method, fabrication of model, sensor layout and input motions. In addition, a series of cases are conducted to study the influence of earthquake intensity, input motion and input direction on the seismic performance of tunnel section. Besides, numerical simulations corresponding to the test cases are conducted to validate the test result and to further study the seismic performance of segmental lining tunnel. Based on the result, peak acceleration, Fourier spectrum and joint extension are analyzed. Close attentions are paid to the effect of inner lining on segmental linings. Results indicate that inner lining leads to higher peak acceleration at transverse direction due to the increase of stiffness. In addition, the inner lining reduces joint extension significantly.
KW - Inner lining
KW - Numerical simulation
KW - Segmental lining
KW - Seismic performance
KW - Shaking table test
UR - http://www.scopus.com/inward/record.url?scp=85069521220&partnerID=8YFLogxK
U2 - 10.1007/978-981-13-0131-5_29
DO - 10.1007/978-981-13-0131-5_29
M3 - Conference contribution
AN - SCOPUS:85069521220
SN - 9789811301308
T3 - Proceedings of GeoShanghai 2018 International Conference: Advances in Soil Dynamics and Foundation Engineering
SP - 261
EP - 269
BT - Proceedings of GeoShanghai 2018 International Conference
A2 - Qiu, Tong
A2 - Tiwari, Binod
A2 - Zhang, Zhen
PB - Springer
T2 - 4th GeoShanghai International Conference - Advances in Soil Dynamics and Foundation Engineering, GSIC 2018
Y2 - 27 May 2018 through 30 May 2018
ER -