21. Kartiranje in vrednotenje ekosistemskih storitev na Jelovici : projekt JeloviZaAnže Japelj, Andreja Ferreira, Andrej Kobler, Anže Martin Pintar, Katja Kavčič Sonnenschein, 2023, final research report Keywords: ekosistemske storitve, vrednotenje, kartiranje, Jelovica, kaskadni model
Published in DiRROS: 26.01.2024; Views: 221; Downloads: 0 |
22. Kartiranje in vrednotenje ekosistemskih storitev na Jelovici : projekt JeloviZaAnže Japelj, Andreja Ferreira, Andrej Kobler, Anže Martin Pintar, Katja Kavčič Sonnenschein, 2023, treatise, preliminary study, study Keywords: ekosistemske storitve, vrednotenje, kartiranje, Jelovica, kaskadni model
Published in DiRROS: 26.01.2024; Views: 210; Downloads: 0 |
23. Evaluation and metrological performance of a novel ionisation vacuum gauge suitable as reference standardKarl Jousten, Sylke Bechstein, Matthias Bernien, Frédéric Boineau, N. Bundaleski, Claus Illgen, Berthold Jenninger, Janez Šetina, Ricardo A. S. Silva, Anke Stöltzel, O. M. N. D. Teodoro, Martin Wüest, 2023, original scientific article Keywords: ionisation vacuum gauge, hot cathode, sensitivity, secondary electrons, ion induced secondary electron yield
Published in DiRROS: 26.01.2024; Views: 203; Downloads: 92
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24. LCA and LCC assessment of UHPFRC application for railway steel bridge strengtheningIrina Stipanović, Sandra Škarić Palić, Aljoša Šajna, Martín-Sanz Henar, Eleni Chatzi, 2021, published scientific conference contribution Abstract: Most of the existing railway steel bridges are nowadays older than 70 years, experiencing serious aging and overload problems. Therefore they either need to be replaced or strengthened to fulfil the increased requirements. The main idea of strengthening existing steel bridges is considering the possibility of adding load bearing deck above the main girders without replacing them. In this particular case study, the original steel structure of the 9m long railway bridge was dismantled and transported to the laboratory for the experimental assessment and development of the new rehabilitation method. Based on the assessment results, a strengthening slab was designed using Ultra High Performance Fibre Reinforced Concrete (UHPFRC) formula. In the life cycle analysis, using LCC and LCA models, the comparison of the application of UHPFRC cast in-situ deck is compared to the bridge replacement solution, which was actually selected method by the owner. The executed solution used also a temporary bridge in order to enable continuous traffic, which has caused very high construction costs. In order to compare different options, we have additionally analysed a solution without a temporary bridge, which created three life cycle scenarios. Most important steps during the construction, exploitation and end-of-life stage have been taken into account and integrated into the LCA and LCC models. Finally the environmental, economy and societal impacts of three solutions were compared over the period of 60 years. The rehabilitation option with UHPFRC deck has shown by far the lowest direct and environmental cost while the user delay costs only after the period of 50 years are not the most convenient for users. Superior characteristics of UHPFRC enabled the optimization of the load bearing deck and by that a very low total used quantity of material resulting in minimum direct and indirect costs.
Keywords: railway steel bridge, UHPFRC, strengthening, LCA, LCC model
Published in DiRROS: 25.01.2024; Views: 163; Downloads: 111
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25. Austrofoma 2023Marjan Dolenšek, Peter Smolnikar, Martin Jež, Amina Gačo, Urban Žitko, Vasja Kavčič, Matjaž Dovečar, 2023, professional article Keywords: traktorji, gozdarska mehanizacija, sejmi, strojna sečnja, transport lesa
Published in DiRROS: 12.01.2024; Views: 254; Downloads: 76
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26. Poletna šola Scientific Writing, Reviewing and Publishing - Planica, avgust 2023Amina Gačo, Martin Jež, Martin Žitko, 2023, professional article Keywords: znanstveno pisanje, znanstveno publiciranje, pisanje znanstvenih člankov, izobraževanje
Published in DiRROS: 12.01.2024; Views: 270; Downloads: 69
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28. A second glass transition observed in single-component homogeneous liquids due to intramolecular vitrificationBen A. Russell, Mario González-Jiménez, Nikita V. Tukachev, Laure-Anne Hayes, Tajrian Chowdhury, Uroš Javornik, Gregor Mali, Manlio Tassieri, Joy H. Farnaby, Hans Martin Senn, Klaas Wynne, 2023, original scientific article Published in DiRROS: 09.01.2024; Views: 158; Downloads: 81
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29. Vrednotenje vplivov DPN za VE Paški Kozjak na stanje gozda in gozdarstvaAndreja Ferreira, 2023, treatise, preliminary study, study Keywords: vrednotenje, vplivi, državni prostorski načrt, vetrna elektrarna, gozdovi, gozdarstvo, Paški Kozjak
Published in DiRROS: 03.01.2024; Views: 221; Downloads: 0 |
30. Getting more out of existing structuresMartín-Sanz Henar, Konstantinos Tatsis, Domagoj Damjanovic, Irina Stipanović, Aljoša Šajna, Ivan Duvnjak, Uroš Bohinc, Eugen Brühwiler, Eleni Chatzi, 2019, original scientific article Abstract: Ultra-high-performance fiber-reinforced cement-based composite (UHPFRC) has been increasingly adopted for rehabilitation projects over the past two decades, proving itself as a reliable, cost-efficient and sustainable alternative against conventional methods. High compressive strength, low permeability and high ductility are some of the characteristics that render UHPFRC an excellent material for repairing existing aged infrastructure. UHPFRC is most commonly applied as a surface layer for strengthening and rehabilitating concrete structures such as bridge decks or building slabs. However, its implementation with steel structures has so far been limited. In this work, the UHPFRC strengthening of a steel bridge is investigated both in simulation as well as in the laboratory, by exploiting a real-world case study: the Buna Bridge. This Croatian riveted steel bridge, constructed in 1893, repaired in 1953, and decommissioned since 2010, was removed from its original location and transported to laboratory facilities for testing prior to and after rehabilitation via addition of UHPFRC slab. The testing campaign includes static and dynamic experiments featuring state-of-the-art monitoring systems such as embedded fiber optics, acoustic emission sensors and digital image correlation. The information obtained prior to rehabilitation serves for characterization of the actual condition of the structure and allows the design of the rehabilitation solution. The UHPFRC slab thickness was optimized to deliver optimal fatigue and ultimate capacity improvement at reasonable cost. Once the design was implemented, a second round of experiments was conducted in order to confirm the validity of the solution, with particular attention allocated to the interface between the steel substrate and the UHPFRC overlay, as the connection between both materials may result in a weak contact point. A detailed fatigue analysis, based on updated FEM models prior to and after strengthening, combined with the results of a reliability analysis prove the benefits of adoption of such a solution via the significant extension of the structural lifespan.
Keywords: bridge, steel, UHPFRC, structures
Published in DiRROS: 21.12.2023; Views: 198; Downloads: 79
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