Secondary language: |
English |
Secondary title: |
Fire analysis of steel buildings with advanced methods |
Secondary abstract: |
The degree represents procedure of fire analysis of steel buildings with advanced methods regarding Eurocode standards. Introduction consists of basiscs and procedures of fire analysis of buildings. Because entire work is based on advanced fire analysis, advanced fire models and advanced calculation models were used. Fire analysis of buildings with advanced methods describes behaviour of structure in case of fire more realistic and credible. Taking into account real fire characteristics and active fire fighting measures, we can make more accurate and realistic analysis in comparison with well known methods that use standard temperature curves. OZone V2 software was used as advanced fire model to calculate temperature of steel structure in compartment. Abaqus 6.6 presents advanced calculation model which was used to calculate mechanical response of structure at elevated temperatures because of fire. Beam finite elements were used in programe Abaqus 6.6. Fire analyses were made for individual members (column, beam), for subassemblies (frames in plane) and for entire structure (frame in space). Fire fighting measures and results of fire analysis are represented in each case. |
Secondary keywords: |
fire;fire analysis;advanced methods;temperature curves;fire scenario;OZone V2;Abaqus 6.6; |
File type: |
application/pdf |
Type (COBISS): |
Undergraduate thesis |
Thesis comment: |
Univ. v Ljubljani, Fak. za gradbeništvo in geodezijo |
Pages: |
XVIII, 115 str. |
Type (ePrints): |
thesis |
Title (ePrints): |
Požarna analiza jeklenih stavb z naprednimi metodami |
Keywords (ePrints): |
gradbeništvo;diplomska dela;UNI;požar;požarna analiza;napredne metode;temperaturne krivulje;požarni scenarij;OZone V2;Abaqus 6.6; |
Keywords (ePrints, secondary language): |
fire;fire analysis;advanced methods;temperature curves;fire scenario;OZone V2;Abaqus 6.6; |
Keywords (ePrints, secondary language): |
fire;fire analysis;advanced methods;temperature curves;fire scenario;OZone V2;Abaqus 6.6; |
ID: |
8310145 |