1. Potresni odziv vodoravnih betonskih fasadnih sistemov armiranobetonskih montažnih stavbGabrijela Starešinič, 2021, doctoral dissertation Keywords: Built environment, doctoral thesis, reinforced concrete precast buildings, horizontal façade system, connections, response mechanism, numerical modelling, parametric study, seismic response Full text (file, 16,54 MB) This document has more files! More... |
2. Using lidar data for debris flow modellingJošt Sodnik, Tomaž Podobnikar, Matjaž Mikoš, 2012, published scientific conference contribution abstract Keywords: Debris-flow, numerical modelling, LiDAR data, DEM, hazard assessment Full text (file, 6,27 MB) |
3. An extreme may 2018 debris flood case study in northern SloveniaNejc Bezak, Jernej Jež, Jošt Sodnik, Mateja Jemec Auflič, Matjaž Mikoš, 2020, original scientific article Keywords: debris floods, hyperconcentrated flows, Slovenia, RAMMS, numerical modelling, mitigation measures Full text (file, 9,94 MB) This document has more files! More... |
4. Modelling in-plane dynamic response of a fastening system for horizontal concrete facade panels in RC precast buildingsGabrijela Starešinič, Blaž Zoubek, Matija Gams, Tatjana Isaković, Matej Fischinger, 2020, original scientific article Keywords: civil engineering, engineering structures, precast buildings, horizontal cladding panels, connections, dynamic tests, response mechanism, numerical modelling Full text (file, 7,34 MB) This document has more files! More... |
5. Predicting the thickness of zero-strength layer in timber beam exposed to parametric firesSabina Huč, Robert Pečenko, Tomaž Hozjan, 2021, original scientific article Keywords: charring depth, fire resistance, parametric fire, reduced cross-section method, timber beam, zero-strength layer, numerical modelling, hygro-thermal analysis, numerical model, thickness Full text (file, 1,58 MB) This document has more files! More... |
6. Impact of a random sequence of debris flows on torrential fan formationNejc Bezak, Jošt Sodnik, Matjaž Mikoš, 2019, original scientific article Keywords: debris fans, RAMMS, numerical modelling, debris flow sequence, hazard assessment, Suhelj fan Full text (file, 12,77 MB) This document has more files! More... |