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dc.contributor.editorYoussef, Maged A.
dc.date.accessioned2022-06-21T08:39:38Z
dc.date.available2022-06-21T08:39:38Z
dc.date.issued2022
dc.identifierONIX_20220621_9783036543406_95
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/84517
dc.description.abstractThe performance-based design of structures in fire is gaining growing interest as a rational alternative to the traditionally adopted prescriptive code approach. This interest has led to its introduction in different codes and standards around the world. Although engineers widely use performance-based methods to design structural components in earthquake engineering, the adoption of such methods in fire engineering is still very limited. This Special Issue addresses this shortcoming by providing engineers with the needed knowledge and recent research activities addressing performance-based design in structural fire engineering, including the use of hotspot analysis to estimate the magnitude of risk to people and property in urban areas; simulations of the evacuation of large crowds; and the identification of fire effects on concrete, steel, and special structures.
dc.languageEnglish
dc.subject.classificationbic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general
dc.subject.classificationbic Book Industry Communication::P Mathematics & science
dc.subject.otherfire incidence
dc.subject.otherhotspot analysis
dc.subject.otherKDE
dc.subject.otherGetis-Ord Gi*
dc.subject.otherIDW interpolation
dc.subject.otherfire risk zones
dc.subject.otherbuilt-up areas
dc.subject.othertemporal analysis
dc.subject.othersustainable development
dc.subject.otherfire
dc.subject.otherearthquake
dc.subject.otherfinite element analysis
dc.subject.otherAbaqus
dc.subject.othermulti hazard analysis
dc.subject.otherScoria aggregate concrete
dc.subject.otherPP fiber
dc.subject.otherhigh temperature
dc.subject.otherstress-strain curve
dc.subject.otherprefabricated cabin-type substation
dc.subject.otherpanel
dc.subject.otherBP neural network
dc.subject.otherthermal–mechanical coupling
dc.subject.othermachine learning
dc.subject.otherfire behavior
dc.subject.otherimpact of fires
dc.subject.otherrepeated impact
dc.subject.otherACI 544-2R
dc.subject.otherhigh temperatures
dc.subject.otherECC
dc.subject.otherimpact ductility
dc.subject.otheroil and gas facility
dc.subject.otheroffshore platform
dc.subject.othertanker
dc.subject.othersteel structure
dc.subject.otherbulkhead
dc.subject.otherdeck
dc.subject.otherhydrocarbon fire mode
dc.subject.otherfire-resistance limit
dc.subject.otherfire protection
dc.subject.otherdesign
dc.subject.otherstadiums and arenas
dc.subject.otherevacuation time
dc.subject.othersafety
dc.subject.otherColosseum
dc.subject.otherorganizing evacuation
dc.subject.othercomputer simulation
dc.subject.otherCity University
dc.subject.otherfire temperature
dc.subject.otheropening factor
dc.subject.othercompartment area
dc.subject.otherthermal analysis
dc.subject.othernatural fire
dc.subject.otherconcrete strength
dc.subject.otherexposure duration
dc.subject.othermaximum temperature
dc.subject.otherheating rate
dc.subject.othercooling rate
dc.subject.otherreinforced concrete
dc.subject.othercolumns
dc.subject.otherstandard fire
dc.subject.othercooling phase
dc.subject.otheraxial capacity
dc.subject.othertemperature-stress history
dc.titlePerformance-Based Design in Structural Fire Engineering
dc.typebook
oapen.identifier.doi10.3390/books978-3-0365-4339-0
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0
oapen.relation.isbn9783036543406
oapen.relation.isbn9783036543390
oapen.pages208
oapen.place.publicationBasel


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