SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2991120066> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2991120066 endingPage "103358" @default.
W2991120066 startingPage "103358" @default.
W2991120066 abstract "Due to the randomness and uncertainty of the earthquake, the incoming angle of the seismic waves acting on the underground structure is also subject to great uncertainty. Most dynamic response analyses and seismic design for hydraulic tunnels are based on the assumption of vertically incoming seismic waves. This assumption may underestimate the nonlinear response of the hydraulic tunnels. Hence, understanding the nonlinear dynamic response and evaluate the damage of the hydraulic tunnels under obliquely incoming compression waves (P waves) is essential for better analysis and seismic design of hydraulic tunnels. For this purpose, the input method of P waves with arbitrary angle is presented and validated through two examples. In addition, the fluid-structure-rock interaction (FSRI) system is considered based on coupled Eulerian-Lagrangian method, to approximate the environment conditions of the hydraulic arched tunnels when the real earthquake occurs. The numerical results reveals that the incoming angle of P waves have great impact on the displacement peak index and the damage degree of hydraulic arched tunnel. It is recommended that the influence of obliquely incoming P waves should be considered in the seismic design of hydraulic tunnels." @default.
W2991120066 created "2019-12-05" @default.
W2991120066 creator A5012722276 @default.
W2991120066 creator A5014867431 @default.
W2991120066 creator A5038719275 @default.
W2991120066 creator A5067686428 @default.
W2991120066 creator A5077889437 @default.
W2991120066 date "2020-02-01" @default.
W2991120066 modified "2023-09-26" @default.
W2991120066 title "Nonlinear dynamic response and damage analysis of hydraulic arched tunnels subjected to P waves with arbitrary incoming angles" @default.
W2991120066 cites W1529149020 @default.
W2991120066 cites W1973394792 @default.
W2991120066 cites W1975474636 @default.
W2991120066 cites W1977584235 @default.
W2991120066 cites W1991019483 @default.
W2991120066 cites W2001159453 @default.
W2991120066 cites W2006731592 @default.
W2991120066 cites W2013927859 @default.
W2991120066 cites W2020737706 @default.
W2991120066 cites W2021709293 @default.
W2991120066 cites W2024376192 @default.
W2991120066 cites W2024631459 @default.
W2991120066 cites W2027150918 @default.
W2991120066 cites W2029274644 @default.
W2991120066 cites W2044094136 @default.
W2991120066 cites W2059738320 @default.
W2991120066 cites W2061029018 @default.
W2991120066 cites W2068200291 @default.
W2991120066 cites W2071856287 @default.
W2991120066 cites W2073078622 @default.
W2991120066 cites W2076249288 @default.
W2991120066 cites W2077569485 @default.
W2991120066 cites W2079995930 @default.
W2991120066 cites W2089890636 @default.
W2991120066 cites W2112950289 @default.
W2991120066 cites W2114426969 @default.
W2991120066 cites W2116738236 @default.
W2991120066 cites W2132097097 @default.
W2991120066 cites W2137399910 @default.
W2991120066 cites W2150617798 @default.
W2991120066 cites W2252773696 @default.
W2991120066 cites W2287032680 @default.
W2991120066 cites W2323125117 @default.
W2991120066 cites W2334238502 @default.
W2991120066 cites W2337829291 @default.
W2991120066 cites W2400814029 @default.
W2991120066 cites W2475188566 @default.
W2991120066 cites W2521130257 @default.
W2991120066 cites W2563506672 @default.
W2991120066 cites W2581492243 @default.
W2991120066 cites W2602715437 @default.
W2991120066 cites W2901210346 @default.
W2991120066 cites W2919078456 @default.
W2991120066 cites W2943931970 @default.
W2991120066 cites W4255155754 @default.
W2991120066 cites W4376999532 @default.
W2991120066 cites W69269398 @default.
W2991120066 cites W834707248 @default.
W2991120066 doi "https://doi.org/10.1016/j.compgeo.2019.103358" @default.
W2991120066 hasPublicationYear "2020" @default.
W2991120066 type Work @default.
W2991120066 sameAs 2991120066 @default.
W2991120066 citedByCount "18" @default.
W2991120066 countsByYear W29911200662020 @default.
W2991120066 countsByYear W29911200662021 @default.
W2991120066 countsByYear W29911200662022 @default.
W2991120066 countsByYear W29911200662023 @default.
W2991120066 crossrefType "journal-article" @default.
W2991120066 hasAuthorship W2991120066A5012722276 @default.
W2991120066 hasAuthorship W2991120066A5014867431 @default.
W2991120066 hasAuthorship W2991120066A5038719275 @default.
W2991120066 hasAuthorship W2991120066A5067686428 @default.
W2991120066 hasAuthorship W2991120066A5077889437 @default.
W2991120066 hasConcept C105795698 @default.
W2991120066 hasConcept C107551265 @default.
W2991120066 hasConcept C121332964 @default.
W2991120066 hasConcept C125112378 @default.
W2991120066 hasConcept C127313418 @default.
W2991120066 hasConcept C127413603 @default.
W2991120066 hasConcept C15744967 @default.
W2991120066 hasConcept C158622935 @default.
W2991120066 hasConcept C165205528 @default.
W2991120066 hasConcept C182358397 @default.
W2991120066 hasConcept C187320778 @default.
W2991120066 hasConcept C25924097 @default.
W2991120066 hasConcept C2779372316 @default.
W2991120066 hasConcept C33923547 @default.
W2991120066 hasConcept C38349280 @default.
W2991120066 hasConcept C542102704 @default.
W2991120066 hasConcept C57879066 @default.
W2991120066 hasConcept C62520636 @default.
W2991120066 hasConcept C66938386 @default.
W2991120066 hasConcept C78542244 @default.
W2991120066 hasConcept C88743934 @default.
W2991120066 hasConceptScore W2991120066C105795698 @default.
W2991120066 hasConceptScore W2991120066C107551265 @default.
W2991120066 hasConceptScore W2991120066C121332964 @default.
W2991120066 hasConceptScore W2991120066C125112378 @default.