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Projektiranje šestetažne okvirne armiranobetonske stavbe s programom Sofistik : magistrsko delo
ID Zupančič, Žiga (Author), ID Gams, Matija (Mentor) More about this mentor... This link opens in a new window, ID Bratina, Sebastjan (Comentor)

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Abstract
V magistrski nalogi je na primeru idejnega projekta šestetažne stanovanjske stavbe prikazan postopek analize in projektiranja tipičnih konstrukcijskih elementov stavbe v skladu z Evrokod standardi. Vodoravna nosilna konstrukcija je zasnovana iz armiranobetonskih polnih plošč in nosilcev, ki potekajo vzdolžno in po obodu stavbe. Navpično nosilno konstrukcijo pa predstavljajo armiranobetonske stene in stebri. Za izvedbo statične analize in dimenzioniranja smo uporabili prostorski računski model konstrukcije, ki smo ga izdelali s programsko opremo Sofistik. Analizo smo izvedli za trajna projektna stanja in za potresno projektno stanje. V nadaljevanju naloge smo se osredotočili na dimenzioniranje armiranobetonske stropne plošče in nosilca nad pritličjem v osi 3 ter armiranobetonske stene v stopniščnem jedru, ki ima bistveno vlogo pri prenosu vodoravne potresne obtežbe. Stropno ploščo smo dimenzionirali na mejno stanje nosilnosti in mejno stanje uporabnosti, pri čemer so bile upoštevane omejitve širine razpok, napetosti in povesov. Pri dimenzioniranju armiranobetonske stene smo upoštevali le kombinacijo vplivov za potresno projektno stanje, saj je ta merodajna. Rezultat dimenzioniranja navedenih konstrukcijskih elementov so armaturni načrti, s katerimi je bila grafično prikazana potrebna armatura za prevzem vseh predvidenih vplivov.

Language:Slovenian
Keywords:magistrska dela, gradbeništvo, okvirna armiranobetonska konstrukcija, analiza, dimenzioniranje, Sofistik, Evrokod, potresna odpornost
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FGG - Faculty of Civil and Geodetic Engineering
Place of publishing:Ljubljana
Publisher:[Ž. Zupančič]
Year:2025
Number of pages:1 spletni vir (2 datoteki PDF (XI, 76 str. +3 str. pril.))
PID:20.500.12556/RUL-176408 This link opens in a new window
UDC:624.012.45:004.92(043.2)
COBISS.SI-ID:259737347 This link opens in a new window
Publication date in RUL:29.11.2025
Views:487
Downloads:273
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Secondary language

Language:English
Title:Structural design of a six-storey reinforced concrete frame building with SOFiSTiK : master thesis
Abstract:
In this master’s thesis, the process of structural analysis and design of typical structural elements is demonstrated through a conceptual design case study of a six-storey residential building, developed in accordance with the Eurocode standards. The horizontal load-bearing system is designed as a reinforced concrete structural system comprising solid slabs and beams arranged longitudinally and along the building perimeter, whereas the vertical load-bearing system consists of reinforced concrete walls and columns. A three-dimensional computational model of the structure was developed using the software Sofistik to perform the structural analysis and dimensioning. The analysis was conducted for both persistent design situations and the seismic design situation. Subsequent chapters focus on the design of the reinforced concrete floor slab and the beam located above the ground floor along axis 3, as well as the reinforced concrete wall within the stair core, which plays a key role in resisting and transferring horizontal seismic actions. The floor slab was designed for both the ultimate limit state (ULS) and the serviceability limit state (SLS), considering limitations related to crack widths, stresses, and deflections. For the design of the reinforced concrete wall, only the combination of actions corresponding to the seismic design situation was considered, as this represents the governing design condition. The outcome of the design of the aforementioned structural elements is presented in the form of reinforcement detailing drawings, which graphically illustrate the required reinforcement necessary to safely resist all anticipated design actions.

Keywords:master thesis, civil engineering, reinforced concrete frame structure, analysis, design, SOFiSTiK, Eurocode, seismic resistance

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