Nothing Special   »   [go: up one dir, main page]

Navigation überspringen
Universitätsbibliothek Heidelberg
Standort: ---
Exemplare: ---
 Online-Ressource
Verfasst von:Huang, Yu [VerfasserIn]   i
 Xiong, Min [VerfasserIn]   i
 Hu, Hongqiang [VerfasserIn]   i
Titel:Guidelines for Probabilistic Performance-Based Seismic Design and Assessment of Slope Engineering
Verf.angabe:by Yu Huang, Min Xiong, Hongqiang Hu
Ausgabe:1st ed. 2023.
Verlagsort:Singapore
 Singapore
Verlag:Springer Nature Singapore
 Imprint: Springer
E-Jahr:2023
Jahr:2023.
 2023.
Umfang:1 Online-Ressource(XVII, 134 p. 51 illus., 46 illus. in color.)
ISBN:978-981-19-9183-7
Abstract:Introduction -- Terms and Notations -- Performance-based Seismic Design of Slope -- Seismic Ground Motion Excitations for Slope Seismic Dynamic Performance Design and Assessment -- Deterministic Analysis Methods for Slope Seismic Dynamic Response -- Probabilistic Performance-based Seismic Design and Assessment for Slope Engineering -- Case Study -- Conclusions and Prospects.
 This book provides a new design and evaluation framework based on slope Stochastic Dynamics theory to probabilistic seismic performance for slope engineering. For the seismic dynamic stability safety of slope, it shifts from deterministic seismic dynamic analysis to quantitative analysis based on nonlinear stochastic dynamics, that is, from qualitative to the description of stochasticity of earthquake excitation that meet the needs in related design specification and establish a performance standard. In the nonlinear dynamic time history analysis of slope subjected to seismic ground motion, the term “randomness” is used to express the uncertainty in the intensity and frequency of earthquake excitation for slope engineering dynamic seismic performance. It mainly includes seismic design fortification standard, corresponding ground motion excitation, performance index threshold, and slope deterministic nonlinear seismic dynamic response. Even more than that, the seismic dynamic large deformation approaches of the whole process and comprehensive analysis for flow analysis after slope instability failure. Eventually, the probabilistic seismic dynamic performance of the slope engineering will be characterized by nonlinear dynamic reliability.
DOI:doi:10.1007/978-981-19-9183-7
URL:Resolving-System: https://doi.org/10.1007/978-981-19-9183-7
 DOI: https://doi.org/10.1007/978-981-19-9183-7
Schlagwörter:(s)Erdbebenzone   i / (s)Böschung   i / (s)Hang   i / (s)Rutschung   i / (s)Erdbeben   i / (s)Baugrunduntersuchung   i
 (s)Erdbebensicherheit   i / (s)Baugrund   i / (s)Hangsicherung   i / (s)Massenbewegung <Geomorphologie>   i / (s)Rutschung   i / (s)Modellierung   i
 (s)Bodenbewegung   i / (s)Erschütterung   i / (s)Stochastisches Modell   i
Datenträger:Online-Ressource
Sprache:eng
Bibliogr. Hinweis:Erscheint auch als : Druck-Ausgabe
 Erscheint auch als : Druck-Ausgabe
 Erscheint auch als : Druck-Ausgabe
K10plus-PPN:1839666048
 
 
Lokale URL UB: Zum Volltext

Permanenter Link auf diesen Titel (bookmarkfähig):  https://katalog.ub.uni-heidelberg.de/titel/69053730   QR-Code

zum Seitenanfang