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Numerical analysis of segmental tunnel linings - Use of the beam-spring and solid-interface methods

عنوان	Numerical analysis of segmental tunnel linings - Use of the beam-spring and solid-interface methods
نویسنده	Rashiddel, A., Hajihassani, M., Kharghani, M., Valizadeh, Hadi, Rahmannejad, R., Dias, D.
تاریخ انتشار:	2022-04-16
محل انتشار	- Techno-Press (테크노프레스)
موضوع	Beam-spring, Joint position, Rotational stiffness, Segment thickness, Soil-segment, Solid-interface
نوع	دوره ای
زبان	انگلیسی
دیجیتال	بله
نسخه خطی	خیر
کتابخانه:	دانشگاه اوزیغین
شناسه دارایی کتابخانه	2005-307X
شماره ثبت	3481a20a-eb56-446a-8aec-daf35a7e127d
محل کتابخانه	Civil Engineering
تاریخ	2022-04-16
متن نمونه	The effect of segmental joints is one of main importance for the segmental lining design when tunnels are excavated by a mechanized process. In this paper, segmental tunnel linings are analyzed by two numerical methods, namely the Beam-Spring Method (BSM) and the Solid-Interface Method (SIM). For this purpose, the Tehran Subway Line 6 Tunnel is considered to be the reference case. Comprehensive 2D numerical simulations are performed considering the soil's calibrated plastic hardening model (PH). Also, an advanced 3D numerical model was used to obtain the stress relaxation value. The SIM numerical model is conducted to calculate the average rotational stiffness of the longitudinal joints considering the joints bending moment distribution and joints openings. Then, based on the BSM, a sensitivity analysis was performed to investigate the influence of the ground rigidity, depth to diameter ratios, slippage between the segment and ground, segment thickness, number of segments and pattern of joints. The findings indicate that when the longitudinal joints are flexible, the soil-segment interaction effect is significant. The joint rotational stiffness effect becomes remarkable with increasing the segment thickness, segment number, and tunnel depth. The pattern of longitudinal joints, in addition to the joint stiffness ratio and number of segments, also depends on the placement of longitudinal joints of the key segment in the tunnel crown (similar to patterns B and B').
DOI	10.12989/gae.2022.29.4.471
Cilt	29

مشاهده در منبع دانشگاه اوزیغین دانشگاه اوزیغین - موتور جستجوی نسخه های خطی عثمانی

دانشگاه اوزیغین

Numerical analysis of segmental tunnel linings - Use of the beam-spring and solid-interface methods

نویسنده Rashiddel, A., Hajihassani, M., Kharghani, M., Valizadeh, Hadi, Rahmannejad, R., Dias, D.

تاریخ انتشار 2022-04-16

محل انتشار - Techno-Press (테크노프레스)

موضوع Beam-spring, Joint position, Rotational stiffness, Segment thickness, Soil-segment, Solid-interface

نوع دوره ای

زبان انگلیسی

دیجیتال بله

نسخه خطی خیر

کتابخانه دانشگاه اوزیغین

شناسه دارایی کتابخانه 2005-307X

شماره ثبت 3481a20a-eb56-446a-8aec-daf35a7e127d

محل کتابخانه Civil Engineering

تاریخ 2022-04-16

متن نمونه The effect of segmental joints is one of main importance for the segmental lining design when tunnels are excavated by a mechanized process. In this paper, segmental tunnel linings are analyzed by two numerical methods, namely the Beam-Spring Method (BSM) and the Solid-Interface Method (SIM). For this purpose, the Tehran Subway Line 6 Tunnel is considered to be the reference case. Comprehensive 2D numerical simulations are performed considering the soil's calibrated plastic hardening model (PH). Also, an advanced 3D numerical model was used to obtain the stress relaxation value. The SIM numerical model is conducted to calculate the average rotational stiffness of the longitudinal joints considering the joints bending moment distribution and joints openings. Then, based on the BSM, a sensitivity analysis was performed to investigate the influence of the ground rigidity, depth to diameter ratios, slippage between the segment and ground, segment thickness, number of segments and pattern of joints. The findings indicate that when the longitudinal joints are flexible, the soil-segment interaction effect is significant. The joint rotational stiffness effect becomes remarkable with increasing the segment thickness, segment number, and tunnel depth. The pattern of longitudinal joints, in addition to the joint stiffness ratio and number of segments, also depends on the placement of longitudinal joints of the key segment in the tunnel crown (similar to patterns B and B').

DOI 10.12989/gae.2022.29.4.471

Cilt 29