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Dimenzioniranje in analiza mostnih opornikov iz armirane zemljine : magistrsko delo
ID Šuler, Jure (Author), ID Logar, Janko (Mentor) More about this mentor... This link opens in a new window, ID Lenart, Stanislav (Comentor)

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PID: 20.500.12556/rul/a498d103-f643-48dd-b58c-b38ccee3c689

Abstract
Predmet obravnave magistrskega dela je dimenzioniranje in statična analiza mostnih opornikov iz armirane zemljine. Na podlagi podrobnega študija strokovne literature in upoštevanja priporočil nekaterih tehničnih smernic so v okviru magistrske naloge predstavljene teoretične podlage in računski postopki, ki so v največji možni meri aplicirani na pravila Evrokod standardov z ustreznim upoštevanjem mejnih stanj nosilnosti (MSN) in uporabnosti (MSU). Predstavljeni računski postopki so v nadaljevanju uporabljeni za dimenzioniranje prvega mostu z oporniki iz armirane zemljine v Sloveniji, ki je bil zgrajen v mesecih novembru in decembru 2014 v Žerovincih v občini Ormož. Z izvajanjem laboratorijskih preiskav za karakterizacijo temeljnih tal in kompozita armirane zemljine v Geomehanskem laboratoriju Zavoda za gradbeništvo Slovenije smo pridobili podatke o dejanskih vrednostih mehanskih in materialnih parametrov, ki so potrebni za izračun nosilnosti in stabilnosti mostnih opornikov. Tekom gradnje in po njej se je na dejanski lokaciji mostu izvajal tudi monitoring, rezultati meritev pa so služili za neposredno primerjavo z izračunanimi in z eksperimentom predvidenimi vrednostmi potrebnih nateznih sil v posameznih slojih geomrež. Ključnega pomena za pridobitev podatkov o napetostno-deformacijskih lastnostih tipičnega kompozita je nedvomno izvedba obremenilnega testa na laboratorijskem preizkušancu - ustreznem kompozitu armirnega geosintetika in nasipnega materiala, ki je identičen vgrajenemu na dejanski lokaciji. Predstavljeni računski postopki dimenzioniranja so z upoštevanjem ustrezne napetostno-deformacijske zveze tipičnega kompozita sicer splošno uporabni za dimenzioniranje v gradbeni praksi.

Language:Slovenian
Keywords:gradbeništvo, magistrska dela, armirana zemljina, mostni oporniki, geosintetiki, geomreža, napetost, deformacija, kompozit, merilni lističi, laboratorijski test
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:[J. Šuler]
Year:2015
Number of pages:XXII, 109 str., 3 pril.
PID:20.500.12556/RUL-72274 This link opens in a new window
COBISS.SI-ID:7157601 This link opens in a new window
Publication date in RUL:10.09.2015
Views:3880
Downloads:624
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Secondary language

Language:English
Title:Design and analysis of geosynthetic reinforced soil bridge abutments
Abstract:
Design and analysis of geosynthetic reinforced soil bridge abutments are being presented in the Master of science thesis. Considering recommendations from many scientific papers and technical specifications from the field of geosynthetic reinforced soil structures, some theoretical bases and design methods are being presented and properly applied to the Eurocode standards where possible, by taking into consideration ultimate (ULS) and serviceability limit states (SLS). In the second part of the thesis first bridge with geosynthetic reinforced soil bridge abutments in Slovenia, built in November and December 2014 in Žerovinci in municipality of Ormož, has been designed using methods and equations, presented in this thesis. Some laboratory tests have been previously evaluated at Geomechanical laboratory of Slovenian national building and civil engineering institute in order to obtain basic characteristics of foundation soil, building materials and their interaction, needed for the proper design of the abutments. Some field monitoring also took place during and after construction of the abutments in order to directly compare required tensile strength of the geosynthetic layers, considering laboratory test results, calculation results and results from field measurements. To obtain proper stress – strain relation for the typical reinforced soil it is of main importance to evaluate laboratory static load test on the specimen with exactly the same building materials – compacted sandy-gravel material and intermediate geosynthetic layers – as used at the construction site. Geosynthetic reinforced soil bridge abutments design method, presented in the master of science thesis, along with the laboratory static load test results for typical reinforced soil could be properly used in civil engineering design practice.

Keywords:civil engineering, geosynthetic reinforced soil, GRS bridge abutments, geosynthetics, geogrid, stress, strain, composite, strain gauges, laboratory test

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