TY  - CONF
Y1  - 2018///
SN  - 2261236X
PB  - EDP Sciences
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059158718&doi=10.1051%2fmatecconf%2f201825001005&partnerID=40&md5=f3511b8e5ad40945725870c348babbea
A1  - Jusoh, S.N.
A1  - Mohamad, H.
A1  - Marto, A.
A1  - Kassim, F.
VL  - 250
AV  - none
N2  - The bending moment of tunnel lining can be influenced by non-uniform ground pressures and joint eccentricities. Influence of joint interaction that induces flexural moment behaviour in segmental tunnel lining was investigated for the project Circle Line Stage 3 (C852), Serangoon Interchange Station. By considering behaviour of segment joint (which can affects the tunnel circumferential and longitudinal safety in overall), the tunnel lining behaviour and displacement of the ground surrounding the tunnel were evaluated. The segment joint modelling in simplified dual-jointed model and in fully soil-tunnel model were developed to assess the effect of segment joint on the overall tunnel response. Ground deformation or settlement trough at the ground surface resulted from the effect of tunnel construction and interaction between soil, tunnel, segment joints and ring joints was predicted. Results showed that with different use of segment joints give different longitudinal settlement. Hinge-nonlinear model together with separated rings model lead to the highest resemblance of surface settlement pattern to the field data when compare to tie model. © The Authors, published by EDP Sciences, 2018.
N1  - cited By 1; Conference of 12th International Civil Engineering Post Graduate Conference and 3rd International Symposium on Expertise of Engineering Design, SEPKA-ISEED 2018 ; Conference Date: 27 August 2018 Through 28 August 2018; Conference Code:143407
KW  - Linings; Soils; Tunnel linings; Tunneling (excavation)
KW  -  Flexural moments; Ground deformations; Joint eccentricities; Longitudinal settlement; Segmental tunnel linings; Settlement troughs; Surface settlements; Tunnel construction
KW  -  Engineering education
TI  - Assessment on segment joint to improve soil-tunnel interaction
ID  - scholars9487
ER  -