Přehled o publikaci
2008
Reliability analysis of slender reinforced concrete column using probabilistic SBRA method
PUSTKA, David; Radim ČAJKA; Karel KUBEČKA and Pavel MAREKBasic information
Original name
Reliability analysis of slender reinforced concrete column using probabilistic SBRA method
Authors
PUSTKA, David; Radim ČAJKA; Karel KUBEČKA and Pavel MAREK
Edition
first, 2008. University of Pardubice, Czech Republic, Reliability, safety and diagnostics of transport structures and means 2008, p. 278-285, 8 pp. 2008
Other information
Language
English
Type of outcome
Proceedings paper
Field of Study
Civil engineering
Country of publisher
Switzerland
Confidentiality degree
is not subject to a state or trade secret
Publication form
printed version "print"
Marked to be transferred to RIV
No
Organization
Vysoká škola technická a ekonomická v Českých Budějovicích – Repository
ISBN
978-80-7395-096-5
Keywords in English
safety assessment, reinforced concrete, slender column
Changed: 12/9/2020 15:37, Bc. Michal Žemlička
Abstract
In the original language
Modern supporting reinforced concrete structures, i.e. columns, piers, frame legs, etc., are characteristics by their higher slenderness. Effects of external forces are on these structures are significantly dependent on their deformations. In the reliability assessment of these structures it is necessary to deal with the equilibrium of internal and external forces acting on deformed structure. Rapidly growing potential of computer technology allows utilize fully probabilistic methods of reliability assessment of tructures. The subject of this paper is probabilistic safety assessment of slender reinforced concrete column loaded by eccentric compressive force. The solution is based on fully probabilistic SBRA method using Monte Carlo simulation technique.
