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MINISTRY OF EDUCATION AND TRAINING HANOI UNIVERSITY OF MINING AND GEOLOGY PHAM VAN VI BEHAVIOR OF SUB-RECTANGULAR TUNNELS UNDER SEISMIC LOADING PhD THESIS HANOI, May 2022 TIEU LUAN MOI download : skknchat@gmail.com BỘ GIÁO DỤC VÀ ĐÀO TẠO TRƯỜNG ĐẠI HỌC MỎ - ĐỊA CHẤT PHẠM VĂN VĨ NGHIÊN CỨU ỨNG XỬ CỦA KẾT CẤU CHỐNG TRONG ĐƯỜNG HẦM TIẾT DIỆN HÌNH CHỮ NHẬT CONG CHỊU TẢI TRỌNG ĐỘNG ĐẤT LUẬN ÁN TIẾN SĨ KỸ THUẬT HÀ NỘI - 05/2022 TIEU LUAN MOI download : skknchat@gmail.com MINISTRY OF EDUCATION AND TRAINING HA NOI UNIVERSITY OF MINING AND GEOLOGY PHAM VAN VI BEHAVIOR OF SUB-RECTANGULAR TUNNELS UNDER SEISMIC LOADING Major: Underground construction engineering Code: 9580204 PhD THESIS SUPERVISORS: Asso Prof., Dr Do Ngoc Anh Prof., Dr Dias Daniel HA NOI, May 2022 TIEU LUAN MOI download : skknchat@gmail.com BỘ GIÁO DỤC VÀ ĐÀO TẠO TRƯỜNG ĐẠI HỌC MỎ - ĐỊA CHẤT PHẠM VĂN VĨ NGHIÊN CỨU ỨNG XỬ CỦA KẾT CẤU CHỐNG TRONG ĐƯỜNG HẦM TIẾT DIỆN HÌNH CHỮ NHẬT CONG CHỊU TẢI TRỌNG ĐỘNG ĐẤT Ngành đào tạo: Kỹ thuật Xây dựng Cơng trình ngầm Mã số ngành: 9580204 LUẬN ÁN TIẾN SĨ KỸ THUẬT NGƯỜI HƯỚNG DẪN KHOA HỌC: PGS.TS Đỗ Ngọc Anh GS.TS Dias Daniel HÀ NỘI - 05/2022 TIEU LUAN MOI download : skknchat@gmail.com i ACKNOWLEDGEMENTS The work described within this thesis was conducted at the Underground and Mining Construction Department, Faculty of Civil Engineering, Hanoi University of Mining and Geology, Vietnam First of all, I am particularly grateful to my supervisors, Associate Professor, Dr Do Ngoc Anh, and Professor Daniel Dias They have enthusiastically supported and directed me to provide invaluable advices in the process of preparing this thesis and research articles I would like to thank Associate Professor, Dr Do Ngoc Anh for his regular support from the very beginning to the completion of this thesis He pushed me to reach my full potential His professional guidance and willingness to work on an ongoing basis were key elements in completing this study I would like to thank Professor Daniel Dias for his invaluable guidance, supervision, encouragement, and support throughout this research process I would like to record my sincere appreciation for their help and I will never forget my three years of Ph.D studies under their guidance, my respected teachers Second, I also want to thank the teachers and staff of the Underground and Mining Construction Department, Faculty of Construction, Postgraduate training Office, Hanoi University of Mining and Geology, who helped me in the process of implementing this thesis Third, I would like to thank the Vingroup JSC and supported by the Master, PhD Scholarship Programme of Vingroup Innovation Foundation (VINIF), Institute of Big Data, code VINIF.2021.TS.167 for financial support This is an honor and a great motivation that helped me to make this research more focused Finally, I am deeply grateful to my family for their support, patience, and love This study would not have been started, would not have been possible, and would never have been completed without the support of my wife, Vu Thi Hue, and my two children, Khanh An and Minh Tri Nothing would have happened without their support and I devoted them to this thesis TIEU LUAN MOI download : skknchat@gmail.com ii LỜI CẢM ƠN Luận án thực Bộ môn Xây dựng cơng trình ngầm Mỏ, Khoa Xây dựng, Trường Đại học Mỏ - Địa chất Đầu tiên, tác giả xin đặc biệt cảm ơn tới tổ hướng dẫn, PGS.TS Đỗ Ngọc Anh GS Daniel Dias Các Thầy định hướng, khuyến khích, thúc đẩy NCS có lời khuyên quý báu, chân thành giúp cho tác giả trình thực luận án viết báo khoa học Thứ hai, tác giả muốn cảm ơn tới Thầy cô Bộ môn Xây dựng cơng trình ngầm mỏ, Khoa Xây dựng, Phịng Đào tạo Sau đại học Trường Đại học Mỏ - Địa chất giúp đỡ, tạo điều kiện cho tác giả trình thực luận án Thứ ba, tác giả muốn cảm ơn tới Tập đoàn Vingroup hỗ trợ Chương trình học bổng thạc sĩ, tiến sĩ nước Quỹ Đổi sáng tạo Vingroup (VINIF), Viện Nghiên cứu Dữ liệu lớn, mã số VINIF.2021.TS.167 tài trợ Đây vinh dự động lực lớn giúp tác giả tập trung nghiên cứu khoa học Cuối cùng, tác giả vơ biết ơn tới gia đình ln bên cạnh với kiên nhẫn Luận án không bắt đầu, thực hoàn thành khơng có hỗ trợ gia đình TIEU LUAN MOI download : skknchat@gmail.com iii GUARANTEE I hereby declare that this is my own research work The data and results presented in this thesis are honest and have never been published in any other works PhD candidate Pham Van Vi TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat iv LỜI CAM ĐOAN Tơi xin cam đoan cơng trình nghiên cứu riêng Các kết liệu luận án trung thực chưa cơng bố cơng trình Nghiên cứu sinh Phạm Văn Vĩ (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat v SUMMARY The principal purpose of this Ph.D thesis is to study the behavior of subrectangular tunnels under seismic conditions by using a finite difference method (FDM) and then a new quasi-static loading scheme, applied to the Hyperstatic Reaction Method (HRM), was developed Firstly, a literature review on the tunnel lining design under seismic condition was conducted Secondly, 2D numerical models of circular and sub-rectangular tunnels subjected to quasi-static loading were developed The difference in behavior of these two tunnel types under seismic loading was highlighted In the final part of the manuscript, a new quasi-static loading scheme applied in sub-rectangular tunnels using the HRM method was proposed based on the quasi-static loading principle Its reliability is demonstrated based on validations conducted by using finite difference caculations considering different situations Keywords: Sub-rectangular tunnel; Hyperstatic Reaction Method; Numerical model; Quasi-static (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat vi TĨM TẮT Mục tiêu luận án sử dụng phương pháp số sai phân hữu hạn (FDM) để nghiên cứu ứng xử đường hầm tiết diện hình chữ nhật cong chịu tải trọng động đất phát triển sơ đồ tải trọng tĩnh tương đương áp dụng phương pháp lực kháng đàn hồi (HRM) Trên sở kết nghiên cứu tổng quan khoảng trống nghiên cứu kết cấu đường hầm tiết diện chữ nhật cong chịu tải trọng động đất, luận án phát triển mơ hình số 2D cho đường hầm tiết diện hình chữ nhật cong chịu tải trọng tĩnh tương đương sở mơ hình đường hầm tiết diện hình trịn kiểm chứng cách so sánh với phương pháp giải tích Ứng xử khác kết cấu chống hai loại tiết diện đường hầm chịu tải trọng động đất Dựa vào kết phân tích mơ hình số FDM, luận án đề xuất sơ đồ tải trọng tĩnh tương đương tác dụng lên kết cấu chống đường hầm tiết diện hình chữ nhật cong chịu tải trọng động đất phương pháp HRM Độ tin cậy sơ đồ tải trọng tĩnh tương đương kiểm chứng sở so sánh với phương pháp FDM xem xét loạt điều kiện đầu vào khác Từ khóa: Đường hầm tiết diện chữ nhật cong; Phương pháp lực kháng đàn hồi; Mơ hình số; Tĩnh tương đương (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 88 [42] Conti R., Viggiani G.M., Perugini F (2013), Numerical modelling of centrifuge dynamic tests of circular tunnels in dry sand, Acta Geotechnica, (4), 597–612 [43] Corigliano M., Scandella L., Lai C.G., Paolucci R (2011), Seismic analysis of deep tunnels in near fault conditions: a case study in Southern Italy, Bull Earthquake Eng, 9, 975-995 [44] Do N.A., Dias D (2018), Tunnel lining design in multi-layered grounds, Tunnelling and Underground Space Technology, 81, 103–111 [45] Do N.A., Dias D., Oreste P (2018), Simplified approach to the design of segmental tunnel lining, Geotech Eng, 171, 209-214 [46] Do N.A., Dias D., Oreste P., Djeran-Maigre I (2014), A new numerical approach to the hyperstatic reaction method for segmental tunnel linings, Int J Anal Meth Geomech, 38, 1617–1632 doi:10.1002/nag.2277 [47] Do N.A., Dias D., Oreste P., Djeran-Maigre I (2015), Behaviour of segmental tunnel linings under seismic loads studied with the hyperstatic reaction method, Soil Dyn Earthq Eng, 79, 108–117 doi:10.1016/j.soildyn.2015.09.007 [48] Do N.A., Dias D., Zhang Z.X., Huang X., Nguyen T.T., Pham V.V., NaitRabah O (2020), Study on the behaviour of squared and sub-rectangular tunnels using the Hyperstatic Reaction Method, Transp Geotech 22, 10021 [49] Do N.A., Dias D., Oreste P.P., Djeran-Maigre I (2015a), 2D Numerical Investigation of Segmental Tunnel Lining under Seismic Loading, Soil Dynamics and Earthquake Engineering, 72: 66-76 [50] Dowding C.H., Rozen A (1978), Damage to rock tunnels from earthquake shaking, J Geotech Eng Division, ASCE 104, 175–191 [51] Du D.C., Dias D., Do N.A (2018a), Designing U-shaped tunnel linings in stratified soils using the hyperstatic reaction method, Eur J Environ Civ Eng, 11,1-18 doi: 10.1080/19648189.2018.1506827 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 89 [52] Du D.C., Dias D., Do N.A (2020), Lining performance optimization of subrectangular tunnels using the Hyperstatic Reaction Method, Comp Geotech, 117, 103279 doi:10.1016/j.compgeo.2019.103279 [53] Du D.C., Dias D., Do N.A., Oreste P (2018b), Hyperstatic reaction method for the design of U-shaped tunnel supports, Int J Geomech, 18, 1–12 [54] Duddeck H., Erdmann J (1985), Structural design models for tunnels in soft soil, Undergr Spa, 9, 246-259 [55] Esmaeilzadeh., Seylabi E., Jeong C., Dashti S., Hushmand A., Taciroglu E (2018), Seismic response of buried reservoir structures: a comparison of numerical simulations with centrifuge experiments, Soil Dyn Earthquake Eng, 109, 89–101 [56] Fabozzi S., Bilotta E (2016), Behaviour of a segmental tunnel lining under seismic actions, Procedia Eng, 158, 230–235 [57] Fabozzi S., Bilotta E., Yu H.T., Yuan Y (2008), Effects of the asynchronism of ground motion on the longitudinal behaviour of a circular tunnel, Tunnelling and Underground Space Technology, 82, 529-541 [58] Fahimifar A., Vakilzadeh A (2009), Numerical and analytical solutions for ovaling deformation in circular tunnels under seismic loading, International Journal of Recent Trends in Engineering, 1(6), 30-35 [59] FHWA (2004), Seismic retrofitting manual for highway structures: Part – retaining structures, slopes, tunnels, culverts and roadways, Publication No FHWA-HRT-05-067, U.S Department of transportation, Federal Highway Administration, Washington D.C., U.S [60] FHWA-HIF-20-035 (2020), Precast Concrete Segmental Liners for Large Diameter Road Tunnels-Literature Survey and Synthesis, WSP USA, Inc One East Pratt Street Suite 300 Baltimore, MD 21202 [61] Gazetas G., Gerolymos N., Anastasopoulos I (2005), Response of three Athens metro underground structures in the 1999 Parnitha earthquake, Soil Dyn Earthquake Eng, 25, 617–633 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 90 [62] Ge S., Wu W., Ding W., Yuan Y (2021), Shaking Table Test on the Response of a Cross Interchange Metro Station under Harmonic Excitations Refers to a Single Two-Storey Metro Station, Appl Sci 11, 1551 [63] Ghosh B., Madabhushi S.P.G (2002), An efficient tool for measuring shear wave velocity in the centrifuge In: Phillips, R., Guo, P.J., Popescu, R (Eds.), International conference on physical modelling in geotechnics, Newfoundland, Canada Balkema, Rotterdam, pp 119–124 [64] Gillis K., Dashti S., Hashash Y.M.A (2015), Dynamic Calibration of Tactile Sensors for Measurement of Soil Pressures in Centrifuge, Geotech Test J, 38 (3), 261–274 [65] Gu S.T., Wang C.Q., Xu C.Z., Yu F.H (2011), Numerical Simulation Research on Earthquake Induced Dynamic Responses of Underground Tunnel, Applied Mechanics and Materials, 90–93:1931–5 [66] Guobo W., Mingzhi Y., Yu M., Jun W., Wang Y (2018), Experimental study on seismic response of underground tunnel-soil-surface structure interaction system, Tunn Undergr Space Technol, 76, 145–159 [67] Han L., Liu H., Zhang W., Ding X., Chen Z., Feng L., Wang Z (2021), Seismic behaviors of utility tunnel-soil system: with and without joint connections, Underoung space, doi.org/10.1016/j.undsp.2021.08.001 [68] Hashash Y.M.A., Dashti M.S., Michael Musgrove S.M., Gillis K., Martin Walker M., Kirk Ellison M., Basarah S.M.Y.I (2018), Influence of tall buildings on seismic response of shallow underground structures, J Geotech Geoenviron Eng, 144, (12) [69] Hashash Y.M.A., Hook J.J., Schmidt B., Yao J.I.C (2001), Seismic design and analysis of underground structures, Tunnelling and Underground Space Technology, 16, 247–293 doi:10.1016/S0886-7798(01)00051-7 [70] Hashash Y.M.A., Park D., Yao J.I (2005), Ovaling deformations of circular tunnels under seismic loading, an update on seismic design and analysis of (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 91 underground structures, Tunnelling and Underground Space Technology, 20, 435–441 [71] He C & Koizumi A (2000), Dynamic behaviour in transverse direction of shield tunnel with considering effect of segment joints, 12WCEE2000, paper 0362 [72] Huang X., Zhu Y., Zhang Z., et al (2018), Mechanical behaviour of segmental lining of a sub-rectangular shield tunnel under self-weight, Tunn Undergr Space Technol, 74, 131-144 [73] Hughes F., Madabhushi S.P.G (2019), Liquefaction induced displacement and rotation of structures with wide basements, Soil Dyn Earthquake Eng, 120, 75–84 [74] Huo H., Bobet A., Fernández G., Ramírez J (2006), Analytical solution for deep rectangular structures subjected to far-field shear stresses, Tunn Undergr Space Technol, 21 (6), 613–625 [75] Iida H., Hiroto T., Yoshida N., Iwafuji M (1996), Damage to Daikai subway station In: Special issue on geotechnical aspects of the January 17 1995 Hyogoken–Nanbu earthquake, Soils and Foundations, pp 283–300 [76] Itasca Consulting Group (2012), FLAC Fast Lagrangian Analysis of Continua, Version 5.0 User's manual, Available: 〈http.itascacg.com〉 [77] Jaramillo A.C (2017), Impact of seismic design on tunnels in rock-Case histories, Undergr Space, 2, 106–114 [78] Jianbin Li (2017), Key Technologies and Applications of the Design and Manufacturing of Non-Circular TBMs, Engineering, 3, 905–914 [79] Jinghua Z., Yuan Y., Bao Z., Yu H., Bilotta E (2019), Shaking table tests on the intersection of cross passage and twin tunnels, Soil Dyn Earthquake Eng, 124, 136–150 [80] Kamal H., Hussein M., Akl A (2021), Parametric study of twin tunnel under seismic loads for Cairo Metro Line No 4, HBRC Journal 17(1) (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 92 [81] Kampas G., Knappett J.A., Brown M.J., Anastasopoulos I., Nikitas N., Fuentes R (2019), The effect of tunnel lining modelling approaches on the seismic response of sprayed concrete tunnels in coarse-grained soils, Soil Dyn Earthquake Eng, 117, 122–137 [82] Kashima Y., Kondo N., Inoue M (1996), Development and application of the DPLEX shield method: Results of experiments using shield and segment models and application of the method in tunnel construction Tunnelling and Underground Space Technology 11(1), 45-50 [83] Kawamata Y., Manabu N., Ikuo T., Susumu Y (2016), Dynamic behaviours of underground structures in E-Defense shaking experiments, Soil Dyn Earthquake Eng, 82, 24–39 [84] Kheradi H., Ye B., Nishi H., Oka R., Zhang F (2017), Optimum pattern of ground improvement for enhancing seismic resistance of existing box culvert buried in soft ground, Tunn Undergr Space Technol, 69, 187–202 [85] Kiryu S, Murono Y and Morikawa H (2012) Seismic response of a cut-andcover tunnel isolated by polymer material Earthquake Engng Struct Dyn 41(14), 2043-2057 [86] Konstantin P.B., Mikhail O.L (2017), About rock pressure loads on tunnel linings constructed using trenchless method, J Min Instit, 228: 649–53 [87] Kontoe S, Avgerinos V, Potts DM et al (2014) Numerical validation of analytical solutions and their use for equivalent-linear seismic analysis of circular tunnels Soil Dynamics and Earthquake Engineering 66: 206-219 [88] Kontoe S., Avgerinos V., Potts D.M., Zdravkovic L., Potts D., Mentiki C (2008), Case study on seismic tunnel response, Can Geotech J, 45, 1743– 1764 [89] Kontoe S., Zdravkovic L., Potts D., Mentiki C (2011), On the relative merits of simple and advanced constitutive models in dynamic analysis of tunnels, Geotechnique, 61 (10), 815–829 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 93 [90] Kouretzis G., Sloan S.W., Carter J.P (2013), Effect of interface friction on tunnel liner internal forces due to seismic S- and P-wave propagation, Soil Dynamic and Earthquake Engineering, 46, 41-51 [91] Kramer G.J., Sederat H., Kozak A., Liu A., & Chai J (2007), Seismic response of precast tunnel lining, Proceedings of the Rapid Exacavation and Tunnelling Concference, 1225-1242 [92] Kroetz H.M., Do N.A., Dias D., Beck A.T (2018), Reliability of tunnel lining design using the Hyperstatic Reaction Method, Tunnelling and Underground Space Technology, 77, 59-67 doi:10.1016/j.tust.2018.03.028 [93] Kutter B.L., Chou J.C., Travasarou T (2008), Centrifuge testing of the seismic performance of a submerged cut and cover tunnel in liquefiable soils In: Proceedings of the Fourth Geotechnical Earthquake Engineering and Soils Dynamics Conference (GEESDC), Sacramento, USA [94] Lanzano G., Bilotta E., Russo G (2008), Tunnels under seismic loading: a review of damage case histories and protection method, In: Workshop of Mitigation of the Earthquake Effects in Towns and in Industrial Regional Districts, Italy [95] Lanzano G., Bilotta E., Russo G., Silvestri F (2015), Experimental and numerical study on circular tunnels under seismic loading, European Journal of Enviromental and Civil Engineering, 19(5), 539-563 [96] Lanzano G., Bilotta E., Russo G., Silvestri F., Madabhushi S.P.G (2010), Dynamic centrifuge tests on shallow tunnel models in dry sand, In: Proceedings of the VII International Conference on Physical Modelling in Geotechnics (ICPMG 2010), Taylor and Francis, Zurich, 561–567 [97] Lanzano G., Bilotta E., Russo G., Silvestri F., Madabhushi S.P.G (2012), Centrifuge modelling of seismic loading on tunnels in sand, Geotech Test J 35 (6), 854–869 [98] Leca E., Clough W (1992), Preliminary design for NATM tunnel support in soil, J Geotech Eng Div, 118, 558-575 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 94 [99] Liu X., Ye Y., Liu Z., Huang D (2018), Mechanical behaviour of Quasirectangular segmental tunnel linings: First results from full-scale ring tests, Tunn Undergr Space Technol, 71, 440-453 [100] Liu X., Ye Y., Liu Z., Yun B., Yaohong Z (2018a), Mechanical behaviour of quasi-rectangular segmental tunnel linings: further insights from full-scale ring tests, Tunn Undergr Space Technol, 79, 304–318 [101] Lu A.Z., Cai H., Wang S.J (2019), A new analytical approach for a shallow circular hydraulic tunnel, Meccanica, 54, 223–238 [102] Lu A.Z., Zeng X.T., Xu Z (2016), Solution for a circular cavity in an elastic half plane under gravity and arbitrary lateral stress, Int J Rock Mech Min, 89, 34–42 [103] Lu C.C., Hwang J.H (2017), Implementation of the modified cross-section racking deformation method using explicit FDM program: A critical assessment, Tunnelling and Underground Space Technology, 68, 58-73 [104] Lu C.C., Hwang J.H (2019), Nonlinear collapse simulation of Daikai Subway in the 1995 Kobe earthquake: Necessity of dynamic analysis for a shallow tunnel, Tunnelling and Underground Space Technology, 87, 78–90 [105] Lu Q., Chen S., Chang Y., He C (2018), Comparison between Numerical and Analytical Analysis on the Dynamic Behavior of Circular Tunnels, Earth Sci Res J, 22(2), 119-128 [106] Luzhen J., Jun C., Jie L (2010), Seismic response of underground utility tunnels: shaking table testing and FEM analysis, Earthquake Eng Eng Vib, 9, 555–567 [107] Madabhushi S.P.G., Haigh S.K (2019), Using tactile pressure sensors to measure dynamic earth pressures in centrifuge models of dual row retaining walls, Int J Phys Modell Geotech, 19 (2), 58–71 [108] Mashimo H., Ishimura T (2005), Numerical modelling of the behaviour of shield tunnel lining during assembly of a tunnel ring, Proc., 5th Int Symp (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 95 Geotechnical Aspects of Underground Construction in Soft Ground, Taylor & Francis, Amsterdam, Netherlands, 587–593 [109] Molins C., Arnau O (2011), Experimental and analytical study of the structural response of segmental tunnel linings based on an in situ loading test Part 1: Test configuration and execution, Tunnelling and Underground Space Technology, 26, 764–777 doi: 10.1016/j.tust.2011.05.002 [110] Möller S.C., Vermeer P.A (2008), On numerical simulation of tunnel installation, Tunnelling and Underground Space Technology, 23, 461-475 [111] Montesinos G.J.P., Bobet A., Ramírez J.A (2006), Evaluation of soil-structure interaction and structural collapse in Daikai station, ACI Struct J, 113–122 [112] Naggar H.E., Hinchberge S.D., Hesham M., Naggar E.I (2008), Simplified analysis of seismic in-plane stresses in composite and jointed tunnel linings, Tunnelling and Underground Space Technology, 28, 1063-1077 [113] Naggar H.E., Hinchberger S.D (2008), An analytical solution for jointed tunnel linings in elastic soil or rock, Canadian Geotechnical Journal, 45, 1572-1593 [114] Naggar H.E., Hinchberger S.D (2012), Approximate evaluation of stresses in degraded tunnel linings, Soil Dynamics and Earthquake Engineering, 43, 4557 [115] Nakamurna H., Kubota T., Furukawa M., et al (2003), Unified construction of running track tunnel and crossover tunnel for subway by rectangular shape double track cross-section shield machine, Tunnelling and Underground Space Technology, 18(2), 253-262 [116] Nguyen D.D., Park D., Shamsher S., Nguyen V.Q., Lee T.H (2019), Seismic vulnerability assessment of rectangular cut-and-cover subway tunnels, Tunnelling and Underground Space Technology, 86, 247–261 [117] Nguyen Hong Phuong, Bui Cong Que and Nguyen Dinh Xuyen (2012), Investigation of earthquake tsunami sources, capable of affecting Vietnamese coast, Natural hazards 64(1): 311-327 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 96 [118] Nguyen Hong Phuong, Bui Cong Que, Vu Ha Phuong and Pham The Truyen (2014), Scenario-based tsunami hazard assessment for the coast of Vietnam from the Manila Trench source, Physics of the Earth and Planetary Interiors, 236, 95-108 [119] Nguyen T.T., Do N.A., Karasev M.A., Dang V.K., Dias D (2020), Tunnel Shape Influence on the Tunnel Lining Behaviour, Proceeding of ICE Geotechnical Engineering doi.org/10.1680/jgeen.20.00057 [120] Oreste P (2005), A probabilistic design approach for tunnel supports, Comput Geotech, 32, 520–534 doi: 10.1016/j.compgeo.2005.09.003 [121] Oreste P (2007), A numerical approach to the hyperstatic reaction method for the dimensioning of tunnel supports, Tunnelling and Underground Space Technology, 22, 185–205 doi: 10.1016/j.tust.2006.05.002 [122] Oreste P., Spagnoli G., Ramos C.A.L , Sebille L (2018), The hyperstatic reaction method for the analysis of the spraryed concrete linings behaviour in tunneling, Geotech Geol Eng, 36, 2143-2169 doi:10.1007/s10706-018-04546 [123] Owen G.N., Scholl R.E (1981), Earthquake engineering of large underground structures, Tech rep., Report N° FHWA/RD-80/195 Federal Highway Administration and National Science Foundation [124] Pakbaz M.C., Yareevand A (2005), 2-D analysis of circular tunnel against seismic loadinging, Tunnelling and U, 20, 411-417 [125] Park K.H., Tantayopin K., Tontavanich B (2006), Analytical solutions for seismic design of tunnel lining in Bangkok MRT subway, International Symposium on Underground Excavation and Tunnelling 2-4 February 2006, Bangkok, Thailand [126] Park K.H., Tantayopin K., Tontavanich B., Owatsiriwong A (2009), Analytical solution for seismic-induced ovaling of circular tunnel lining under no-slip interface conditions: A revisit, Tunnelling and Underground Space Technology, 24, 231–235 doi: 10.1016/j.tust.2008.07.001 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 97 [127] Patil M., Choudhury D., Ranjith P.G., Zhao J (2018), Behaviour of shallow tunnel in soft soil under seismic conditions, Tunnelling and Underground Space Technology, 82, 30-38 doi: 10.1016/j.tust.2018.04.040 [128] Penzien J., Wu C.L (1998), Stresses in linings of bored tunnels, Earthqake Engng Struct Dyn, 27, 283-300 [129] Penzien Z (2000), Seismically induced racking of tunnel linings, Int J Earthquake Engng Struct Dynamic, 29, 683–691 [130] Power M.S., Rosidi D., Kaneshiro J (1996), Vol III Strawman: Screening, Evaluation, and Retrofit Design of Tunnels, Report Draft National Center for Earthquake Engineering Research, Buffalo, New York [131] Power M.S., Rosidi D., Kaneshiro J., Gilstrap S., Chiou S.J (1998), Summary and evaluation of procedures for the seismic design of tunnels, Final Report for Task 112-d-5 3(c) National Center for Earthquake Engineering Research, Buffalo, New York [132] Romero V.S., Caufield R.J (2012), Improving the seismic resilience of lifeline tunnels, 2012 NZSEE conference, paper 064 [133] Roy N., Sarkar R (2016), A review of seismic damage of mountain tunnels and probable failure mechanisms, Geotech Geol Eng, 35 (1), 1–28 [134] Sadigh R.K., Egan J.A (1998), “Updated Relationships for Horizontal Peak Ground Velocity and Peak Ground Displacement for Shallow Crustal Earthquakes,” Proceedings of the Sixth U.S National Conference on Earthquake Engineering, Seattle, Washington [135] Sederat H., Kozak A., Hashash Y.M., Shamsabadi A., Krimotat A (2009), Contact interface in seismic analysis of circular tunnels, Tunnelling and Underground Space Technology, 24, 482-490 [136] Shahrour I., Khoshnoudian F., Sadek M., Mroueh H (2010), Elastoplastic analysis of the seismic response of tunnels in soft soils, Tunnelling and Underground Space Technology, 25, 478-482 doi: 10.1016/j.tust.2010.01.006 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 98 [137] Silva F., Fabozzi S., Nikitas N., Fuentes E (2021), Seismic vulnerability of circular tunnels in sand, Géotechnique, 1-34 [138] Skrzypkowski K (2018), Evaluation of Rock Bolt Support for Polish Hard Rock Mines, E3S Web Conf, 35, 01006 [139] Sliteen L (2013), Modélisation Tridimensionnelle du comportement sismique des tunnels enterrain meuble, Ph.D dissertation, Université Lille1 Sciences et Technologies [140] Sliteen L., Mroueh H., & Sadek M (2013), Three-dimensional modeling of the behaviour of shallow tunnel under seismic load, 20ème Congrès Francais de Méchanique (CFM2011) [141] Sun Q.Q (2020), Seismic response of tunnels in soils: From deterministic to probabilistic approaches, Ph.D thesis, Grenoble Alpes [142] Sun Q.Q., Dias D (2019), Assessment of stress relief during excavation on the seismic tunnel response by the pseudo-static method, Soil Dyn Earthq Eng, 117, 384–397 doi: 10.1016/j.soildyn.2018.09.019 [143] Sun Q.Q., Dias D (2019a), Seismic behaviour of circular tunnels: Influence of the initial stress state, Soil Dyn Earthq Eng, 126, 105808 [144] Sun Q.Q., Dias D., Sousa L.R (2020), Soft soil layer-tunnel interaction under seismic loading, Tunnelling and Underground Space Technology doi.org/10.1016/j.tust.2020.103329 [145] Sun Q.Q., Du D., Dias D (2020), An improved Hyperstatic Reaction Method for tunnels under seismic loading, Tunnelling and Underground Space Technology, doi: 10.1016/j.tust.2020.103687 [146] Sun T., Yue Z., Gao B., Li Q., Zhang Y (2011), Model test study on the dynamic response of the portal section of two parallel tunnels in a seismically active area, Tunnelling and Underground Space Technology, 26 (2), 391–397 [147] Sun, Q.Q., Dias, D., 2018 Significance of Rayleigh damping in nonlinear numerical seismic analysis of tunnels Soil Dyn Earthq Eng 115, 489-494 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 99 [148] Tsinidis G., Heron C., Pitilakis K., Madabhushi G (2014b), Physical modeling for the evaluation of the seismic behaviour of square tunnels, In: Ilki, A., Fardis, M (Eds.), Seismic Evaluation and Rehabilitation of Structures, Geotechnical and Geological Earthquake Engineering, 26 Springer International Publishing, Switzerland, pp 389–406 [149] Tsinidis G., Heron C., Pitilakis K., Madabhushi G (2015b), Centrifuge modelling of the dynamic behaviour of square tunnels in sand, In: Taucer, F., Apostolska, R (eds), Experimental Research in Earthquake Engineering Geotechnical and Geological Earthquake Engineering, vol 35, Springer, Switzerland, pp 509–523 [150] Tsinidis G., Pitilakis K., Madabhushi G (2016a), On the dynamic response of square tunnels in sand, Eng Struct, 125, 419–437 [151] Tsinidis G., Pitilakis K., Madabhushi G., Heron C (2015a), Dynamic response of flexible square tunnels: centrifuge testing and validation of existing design methodologies, Géotechnique, 65 (5), 401–417 [152] Tsinidis G., Pitilakis K., Trikalioti A.D (2014a), Numerical simulation of round robin numerical test on tunnels using a simplified kinematic hardening model, Acta Geotech, (4), 641–659 [153] Tsinidis G., Rovithis E., Pitilakis K., Chazelas J.L (2015c), Dynamic response of shallow rectangular tunnels in sand by centrifuge testing, In: Taucer, F., Apostolska, R (eds.), Experimental Research in Earthquake Engineering Geotechnical and Geological Earthquake Engineering, vol 35, Springer, Switzerland, pp 493–507 [154] Tsinidis G., Rovithis E., Pitilakis K., Chazelas J.L (2016b), Seismic response of box-type tunnels in soft soil: Experimental and numerical investigation, Tunnelling and Underground Space Technology, 59, 199–214 [155] Tsinidis G., Silva F.D., Anastasopoulos I., Bilotta E., et al (2020), Seismic behaviour of tunnels: From experiments to analysis, Tunnelling and Underground Space Technology, 99 (2020) 103334 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 100 [156] Ulgen D., Saglam S., Yener Ozkan M (2015), Dynamic response of a flexible rectangular underground structure in sand: centrifuge modeling, Bull Earthq Eng, 13, 2547–2566 [157] Wang F., Xueliang J., Jiayong N (2017), The large-scale shaking table model test of the shallow-bias tunnel with a small clear distance, Geotech Geol Eng, 35 (3), 1093–1110 [158] Wang J.M (1985), The distribution of earthquake damage to underground facilities during the 1976 Tang-Shan earthquake, Earthquake Spectra, (4), 741–757 [159] Wang J.N (1993), Seismic Design of Tunnels, A State-of-the-Art Approach Monograph 7, Parsons Brickerhoff Quade and Douglas, Inc., New York [160] Wang W.L., Wang T.T., Su J.J., Lin C.H., Seng C.R., Huang T.H (2001), Assessment of damage in mountain tunnels due to the Taiwan Chi-Chi earthquake, Tunnelling and Underground Space Technology, 16, 133–150 [161] Wang Z.Z., Jiang L., Gao Y (2019), Shaking table test of seismic response of immersed tunnels under effect of water, Soil Dyn Earthquake Eng, 116, 436– 445 [162] Wang Z.Z., Jiang Y.J., Zhu C.A., Sun T.C (2015), Shaking table tests of tunnel linings in progressive states of damage, Tunnelling and Underground Space Technology, 50, 109–117 [163] Xin C.L., Wang Z.Z., Gao B (2018), Shaking table tests on seismic response and damage mode of tunnel linings in diverse tunnel-void interaction states, Tunnelling and Underground Space Technology, 77, 295–304 [164] Xin C.L., Wang Z.Z., Zhou J.M., Gao B (2019), Shaking table tests on seismic behaviour of polypropylene fiber reinforced concrete tunnel lining, Tunnelling and Underground Space Technology, 88, 1–15 [165] Xu H., Li T., Xia L., Zhao J.X., Wang D (2016), Shaking table tests on seismic measures of a model mountain tunnel, Tunnelling and Underground Space Technology, 60, 197–209 (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat 101 [166] Yashiro K., Kojima Y., Shimizu M (2007), Historical earthquake damage to tunnels in Japan and case studies of railway tunnels in the 2004 NiigatakenChuetsu earthquake, Quart Rep RTRI, 48 (3), 136–141 [167] Yoshikawa K., Fukuchi G (1984), Earthquake damage to railway tunnels in Japan Adv, Tunn Technol Subsurface Use, (3), 75–83 [168] Yu H., Chen J., Bobet A., Yuan Y (2016), Damage observation and assessment of the Longxi tunnel during the Wenchuan earthquake, Tunnelling and Underground Space Technology, 54, 102-116 [169] Yu H., Yan X., Bobet A., Yuan Y., Xu G., Su Q (2018), Multi-point shaking table test of a long tunnel subjected to non-uniform seismic loadings, Bull Earthq Eng, 16 (2), 1041–1059 [170] Zeng G., Wang H., Jiang M (2019), Analytical study of ground responses induced by the excavation of quasirectangular tunnels at shallow depths, Int J Numer Anal Methods Geomech, 1-24 doi:10.1002/nag.2980 [171] Zhang J., Yong Y., Haitao Y (2019), Shaking table tests on discrepant responses of shafttunnel junction in soft soil under transverse excitations, Soil Dyn Earthquake Eng, 120, 345–359 [172] Zhang W., De Corte W., Liu X., Taerwe L (2020), Influence of rotational stiffness modeling on the joint behavior of quasi-rectangular shield tunnel linings, Applied Sciences, 10, 8396; doi:10.3390/app10238396 [173] Zhang W., De Corte W., Liu X., Taerwe L (2021), Optimization Study on Longitudinal Joints in Quasi-Rectangular Shield Tunnels, Applied Sciences, 11, 573 doi.org/10.3390/app11020573 [174] Zhang X., Jiang Y., Maegawa (2020), Mountain tunnel under earthquake force: A review of possible causes of damages and restoration methods, Journal of Rock Mechanics and Geotechnical Engineering, 12(2), 414-426 [175] Zhang Z.X., Zhu Y.T., Zhu Y.F., et al (2017), Development and application of a 1:1 mechanical test system for special-shaped shield lining with a large cross-section, Chin J Rock Mech Eng, 12(36), 2895–2905 [in Chinese] (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat TIEU LUAN MOI download : skknchat@gmail.com (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat (Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat(Luan.an.tien.si).nghien.cuu.ung.xu.cua.ket.cau.chong.trong.duong.ham.tiet.dien.hinh.chu.nhat.cong.chiu.tai.trong.dong.dat