TY - BOOK ID - 4864554 TI - Earthquake-Induced Structural Pounding AU - Jankowski, Robert. AU - Mahmoud, Sayed. PY - 2015 SN - 9783319163246 331916323X 9783319163239 3319163248 PB - Cham : Springer International Publishing : Imprint: Springer, DB - UniCat KW - Earth Sciences. KW - Geophysics/Geodesy. KW - Geotechnical Engineering & Applied Earth Sciences. KW - Geoengineering, Foundations, Hydraulics. KW - Geography. KW - Physical geography. KW - Hydraulic engineering. KW - Géographie KW - Géographie physique KW - Technologie hydraulique KW - Physics KW - Physical Sciences & Mathematics KW - Cosmic Physics KW - Buildings KW - Structural dynamics. KW - Structural design. KW - Impact. KW - Shock (Mechanics) KW - Engineering geology. KW - Earthquakes. KW - Earthquake effects. KW - Quakes (Earthquakes) KW - Engineering KW - Mechanical shock KW - Building dynamics KW - Dynamics, Structural KW - Structural vibration KW - Earthquakes and building KW - Geology KW - Earth sciences. KW - Geophysics. KW - Geotechnical engineering. KW - Foundations. KW - Hydraulics. KW - Geology. KW - Civil engineering KW - Geology, Economic KW - Earth movements KW - Natural disasters KW - Seismology KW - Damping (Mechanics) KW - Impact KW - Mechanics KW - Strains and stresses KW - Vibration KW - Collisions (Physics) KW - Materials KW - Blast effect KW - Splashes KW - Engineering design KW - Architectural design KW - Structural analysis (Engineering) KW - Dynamic testing KW - Engineering, Hydraulic KW - Fluid mechanics KW - Hydraulics KW - Shore protection KW - Geography KW - Engineering—Geology. KW - Flow of water KW - Water KW - Hydraulic engineering KW - Jets KW - Architecture KW - Building KW - Structural engineering KW - Underground construction KW - Caissons KW - Earthwork KW - Masonry KW - Soil consolidation KW - Soil mechanics KW - Walls KW - Engineering, Geotechnical KW - Geotechnics KW - Geotechnology KW - Engineering geology KW - Geological physics KW - Terrestrial physics KW - Earth sciences KW - Flow KW - Distribution KW - Details UR - https://www.unicat.be/uniCat?func=search&query=sysid:4864554 AB - This books analyzes different approaches to modeling earthquake-induced structural pounding and shows the results of the studies on collisions between buildings and between bridge segments during ground motions. Aspects related to the mitigation of pounding effects as well as the design of structures prone to pounding are also discussed. Earthquake-induced structural pounding between insufficiently separated buildings, and between bridge segments, has been repeatedly observed during ground motions. The reports after earthquakes indicate that it may result in limited local damage in the case of moderate seismic events, or in considerable destruction or even the collapse of colliding structures during severe ground motions. Pounding in buildings is usually caused by the differences in dynamic properties between structures, which make them vibrate out-of-phase under seismic excitation. In contrast, in the case of longer bridge structures, it is more often the seismic wave propagation effect that induces collisions between superstructure segments during earthquakes. ER -