References
Chen WF, Liu XL (1990) Limit analysis in soil mechanics. Elsevier Scientific Publishing, New York
Det Norske Veritas, Germanischer Lloyd (2017) Pipe-soil interaction for submarine pipelines. Recommended Practice DNVGL-RP-F114. https://www.dnvgl.com/
Fredsøe J (2016) Pipeline-seabed interaction. J Waterw Port Coast Ocean Eng 142(6):03116002
Gao FP (2017) Flow-pipe-soil coupling mechanisms and predictions for submarine pipeline instability. J Hydrodyn 29(5):763–773
Gao FP, Gu XY, Jeng DS (2003) Physical modeling of untrenched submarine pipeline instability. Ocean Eng 30(10):1283–1304
Gao FP, Wang N, Zhao B (2013) Ultimate bearing capacity of a pipeline on clayey soils: slip-line field solution and FEM simulation. Ocean Eng 73:159–167
Gao FP, Wang N, Zhao B (2015) A general slip-line field solution for the ultimate bearing capacity of a pipeline on drained soils. Ocean Eng 104:405–413
Gao FP, Wang N, Li JH, Han XT (2016) Pipe-soil interaction model for current-induced pipeline instability on a sloping sandy seabed. Can Geotech J 53(11):1822–1830
Qi WG, Gao FP (2018) Wave induced instantaneously-liquefied soil depth in a non-cohesive seabed. Ocean Eng 153:412–423
Randolph MF, Gourvenec S (2011) Offshore geotechnical engineering. Spon Press, New York
Randolph MF, White DJ, Yan Y (2012) Modelling the axial soil resistance on deep-water pipelines. Géotechnique 62:837–846
Shi YM, Gao FP (2018) Lateral instability and tunnel erosion of a submarine pipeline: competition mechanism. Bull Eng Geol Environ 77:1069–1080
Shi YM, Wang N, Gao FP, Qi WG, Wang JQ (2019) Physical modelling of the axial pipe-soil interaction for pipeline walking on a sloping sandy seabed. Ocean Eng 178:20–30
Wagner D, Murff JD, Brenodden H, Svegen O (1989) Pipe-soil interaction model. J Waterw Port Coastal Ocean Eng ASCE 115(2):205–220
White DJ, Randolph MF (2007) Seabed characterisation and models for pipeline-soil interaction. In: Proceedings of the 17th international offshore and polar engineering conference (ISOPE), Lisbon, pp 758–769
Yamamoto T, Koning HL, Sellmeijer H, Hijum EV (1978) On the response of a poro-elastic bed to water waves. J Fluid Mech 87(1):193–206
Youssef BS, Tian Y, Cassidy MJ (2013) Centrifuge modelling of an on-bottom pipeline under equivalent wave and current loading. Appl Ocean Res 40:14–25
Zhang J, Stewart DP, Randolph MF (2002) Modeling of shallowly embedded offshore pipelines in calcareous sand. J Geotech Geoenviron Eng ASCE 128:363–371
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Gao, Fp. (2020). On-Bottom Stability of Submarine Pipelines. In: Cui, W., Fu, S., Hu, Z. (eds) Encyclopedia of Ocean Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-10-6963-5_201-1
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DOI: https://doi.org/10.1007/978-981-10-6963-5_201-1
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