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61	Patrová budova s atriem / Multi-Storey Building with Atrium Brodecký, Miroslav January 2017 (has links) The diploma work deals with a design of a steel load-bearing structure for a multi-storey building with an atrium consisting of five above ground floors. The property is situated into Blansko area. Its ground-plan measures are 32.5 x 56 m. The maximum height of the property is 23.2 m. The height of the floor is 4 m. Load-bearing structure is designed with articulated joints. The atrium roof is formed from truss girders. The design and assessment is done according to rules in operation.
62	Návrh a posouzení ŽB konstrukce / Salesian Center Martinek, Ivo January 2022 (has links) This final thesis is focused on a reinforcement design and check of selected reinforced concrete structure parts of a church building. A spatial model loaded with dead and live loads is designed in order to carry out a structural analysis in SCIA Engineer software. Serviceability limit state and fire resistance are then checked for some selected load-bearing elements. The drawings are also included in this work.
63	Favorit Brno / cyklistický stadion - bikrosová dráha / - architektonická studie - design / Favorite Brno / cycling / track stadium bikrosová architectural study design Lacinová, Michaela January 2019 (has links) The diploma thesis was preceded with the specification of specialised atelier TG02 of which the purpose was to prepare an urbanistic study of sport area Hněvkovského territory that is found in the municipal district Brno - Komárov. The urbanistic design was aimed to create an important territory for sport professional as well as relax activities. The specification included also the design of current BMX area and creation of background for sportsmen as well as visitors. The diploma thesis that deals with the building of cycling stadium in form of a study links to this theme. The stadium is situated in the North-East part of the areas, near Hněvkovského road. The design regards sufficient scattering surfaces around the building, simple orientation in the building´s surroundings as well as in the building itself is emphasised. Its glass façade is an important expression element of the building as well as the video mapping systems proposed for projection and lighting of this façade. The attractiveness of the whole area is underlined with parking areas, refreshment point of current cycling track and new area of sport activities (dirt park, ball games).
64	[en] ANALYSIS OF THE USE OF CARBON FIBER REINFORCED POLYMER BARS TO REINFORCE CONCRETE BEAMS / [pt] ANÁLISE DA UTILIZAÇÃO DE BARRAS DE POLÍMERO REFORÇADO COM FIBRAS DE CARBONO PARA REFORÇO DE VIGAS DE CONCRETO RODRIGO SANGUEDO BAPTISTA 28 December 2021 (has links) [pt] O presente trabalho tem como objetivo analisar a utilização de barras constituídas por material compósito para atuarem como reforço de vigas de concreto submetidas à flexão. As barras analisadas são constituídas por polímero reforçado com fibras de carbono (PRFC), material este que apresenta comportamento linear elástico até a ruptura. Este material possui algumas vantagens em relação ao aço, como por exemplo, resistência à tração consideravelmente superior além de não ser suscetível ao fenômeno da corrosão ocasionada por intempéries ambientais. Durante o desenvolvimento do trabalho foi obtido um artigo o qual demonstra resultados de ensaios de laboratório nos quais os autores utilizaram vigas de concreto submetidas a ensaio de flexão por quatro pontos e reforçadas com barras de PRFC. Neste trabalho, o mesmo ensaio foi simulado no software Atena, programa este que realiza análise não linear para estruturas de concreto, considerando a fissuração deste material. Os resultados obtidos pelo software apresentaram consistência com os resultados registrados em laboratório pelos autores. Foi ainda analisada uma viga contínua de concreto submetida a um carregamento uniformemente distribuído. Essa viga foi reforçada com barras de mesmo diâmetro alterando-se apenas o material dessas barras (aço e PRFC). Dessa maneira, foi analisado o valor de carregamento que ocasiona a ruptura da viga. Foram constatadas duas importantes desvantagens das barras de PRFC em relação ao aço. A primeira desvantagem está no custo superior ao aço e por apresentar comportamento elástico até o rompimento, o PRFC não confere à estrutura de concreto uma ruptura dúctil. Os objetivos deste trabalho foram cumpridos e ao final são propostos novos estudos a serem realizados sobre o tema. / [en] The aim of the present work is to analyze the use of bars made of composite material to act as reinforcement for concrete beams subjected to bending. The analyzed bars are constituted by polymer reinforced with carbon fibers (PRFC), a material that presents linear elastic behavior until rupture. This material has some advantages in relation to steel, such as considerably higher tensile strength in addition to not being susceptible to the phenomenon of corrosion caused by environmental conditions. During the development of the work, an article was obtained which demonstrates results of laboratory tests in which the authors used concrete beams subjected to flexion testing by four points and reinforced with PRFC bars. In this work, the same test was simulated in the Atena software, a program that performs non-linear analysis for concrete structures, considering the cracking of this material. The results obtained by the software were consistent with the results recorded in the laboratory by the authors. It was also analyzed a continuous concrete beam subjected to a uniformly distributed load. This beam was reinforced with bars of the same diameter, changing only the material of these bars (steel and PRFC. In this way, the loading value that causes the beam to break when it is reinforced with steel bars and when it is reinforced with PRFC bars of the same diameter was analyzed. Two important disadvantages of PRFC bars in relation to steel have been noted. Due to its elastic behavior until breaking, this composite material does not give the concrete structure a ductile rupture. In addition, its cost is considerably higher than steel bars, since no suppliers of this type of reinforcement have been identified in Brazil, thus increasing the cost to purchase this product. The objectives of this work were accomplished and, in the end, new studies are proposed to be carried out on the theme. [pt] ANALISE NAO LINEAR [pt] SOFTWARE ATENA [pt] ESTRUTURA DE CONCRETO [en] NONLINEAR ANALYSIS [en] ATENA SOFTWARE [en] CARBON FIBER REINFORCED POLYMER BAR [en] REINFORCED CONCRETE STRUCTURE
65	Robusthet hos miljonprogrammets prefabricerade betongkonstruktioner Nilsson, Henrik, Larsson, Simon January 2015 (has links) Elementbyggnad medför ofta problem, dels på grund av avsaknaden av naturliga kopplingar mellan dess element, dels kring hur konstruktionen i dess utformning ska motstå fortskridande ras. Med fortskridande ras avses det förlopp som uppstår då kollaps av en enskild bärverksdelsprids till intilliggande konstruktion. En konstruktion som har tillräcklig förmåga att motstå detta förlopp benämns robust.Bo G. Hellers, professor emeritus i konstruktionslära vid Kungliga tekniska högskolan, beskriver i en debattartikel att många byggnader uppförda med prefabricerade betongelement från miljonprogrammet inte uppnår tillräcklig robusthet.Syftet med denna studie baseras på Bo G. Hellers uttalande och har varit att undersöka om en befintlig byggnad uppförd under miljonprogrammet är utformad på ett sådant sätt att tillräcklig robusthet uppnås. Om otillräcklig robusthet påvisas tas även åtgärdsförlag fram för att öka byggnadens robusthet enligt dagens norm.De frågor som studien besvarar är: Hur är undersökt byggnad konstruerad i avseende på robusthet? Kan det med någon av dagens dimensioneringsmetoder påvisas att byggnaden är robust? Hur kan eventuella åtgärder utformas för att uppnå tillräcklig robusthet?För att besvara den aktuella frågeställningen har en litteraturstudie av de metoder som finns för dimensionering i avseende på robusthet genomförts, liksom av material som rör miljonprogrammet och dess områden. Dessutom har ritningar av en aktuell byggnad samlats inoch analyserats. Vidare har även diskussioner med professionella aktörer med kompetens inom området genomförts.För att uppfylla de normkrav som ställs krävs att det finns horisontella och vertikala dragband, alternativt att konstruktionen utformas med horisontella dragband och att alternativa lastvägar kan påvisas vid fiktivt avlägsnande av en bärverksdel. Kan inte alternativa lastvägar påvisasska avlägsnad bärverksdel dimensioneras som en väsentlig bärverksdel. Konstruktionen ska även innehålla tillräcklig sammanhållningsarmering mellan fasad och bjälklag.Vid analys av ritningar över den befintliga byggnaden konstateras att de kopplingar som finns mellan bjälklagselementen, tillsammans med bjälklagens böjarmering, samt mellan bjälklag och gavelelement kan utgöra horisontella dragband respektive sammanhållningsarmering. Eftervidare undersökning påvisas dock att de horisontella kopplingarnas kapacitet inte är tillräcklig för att överföra de krafter som erfordras och kräver därav åtgärd.De vertikala kopplingar som finns mellan gavelelementen bedöms inte kunna vara verksamma som vertikala dragband då dessa kopplingars förankringslängd är bristande. För innerväggar saknas helt kopplingar i vertikalled vilket omöjliggör ett uppfyllande av kraven.Ett alternativ för att uppfylla normen är att möjliggöra alternativa lastvägar. Vid fiktiv borttagning av ett gavelelement betraktas fallet som en flaggkonstruktion. Här krävs att en skjuvkraft ska vara överförbar mellan kvarstående gavelelement och ovanpåliggande bjälklag. Vid undersökning av kapacitet hos de befintliga kopplingarna mellan elementen visar sig denna vara bristande och kraftöverföringen är inte möjlig. Samma fall kan tillämpas vid fiktiv borttagning av en innervägg men då denna helt saknar kopplingar är inte någon kraftöverföring möjlig. Innerväggen kan även betraktas som en fritt upplagd balk där dragkapaciteten i underkant ska vara tillräcklig, vilket den efter undersökning inte kan påvisas vara. Inga bärverksdelar uppfyller heller kraven för väsentliga bärverksdelar.För att uppnå tillräcklig kapacitet och möjliggöra erforderliga kraftöverföringar används i samtliga fall plattstål samt L-stål som förankras i betongen med expander. För att möjliggöra inre dragband monteras plattstål mellan bjälklagen och då böjarmeringens kapacitet är tillräcklig i samtliga riktningar kan bjälklagen, efter denna åtgärd, utnyttjas som både inre och yttre dragband.Vid gavelelementen monteras plattstål på dess utsida och L-stål på dess insida. Dessa förankras med expander och möjliggör tvärkraftsöverföring och ger tillräcklig förankring på varje bjälklagsnivå. Plattstål kopplar även samman enskilda gavelelement och vertikala krafter kan därmed också överföras. För innerväggen monteras L-stål vilket möjliggör tillräcklig kraftöverföring mellan innerväggen och ovanförliggande bjälklag.Efter genomförd undersökning kan följande slutsatser dras: Byggnaden är till viss del utformad i avseende på robusthet då gavelelement är kopplade till varandra samt till bjälklagselement. Även bjälklagselementen är kopplade till varandra. Byggnaden i dess aktuella utförande kan inte påvisas vara tillräcklig robust för att uppfylla kraven som ställs i dagens gällande normer. För att uppfylla kraven på tillräcklig robusthet kan fogarna förstärkas genom att montera L-stål och plattstål förankrade med expandrar. Med föreslagen åtgärd kan tillräcklig robusthet endast uppnås vid dimensionering enligt betongnormen. / The avoidance of joints in critical locations and how to design a structure to prevent progressive collapse is often two major problems associated with the use of precast concrete structures. This is due to the lack of natural connections between the elements which is generated automatically when using structures cast in situ. A building which has a good ability to withstand a progressive collapse can be referred to as “robust”.The purpose of this study is to investigate the robustness of a building from the million program era in regards to its initial structural design. If the ability to withstand a progressive collapse is proven to be insufficient, actions based on current standards will be proposed.Questions intended to be answered by this study are: How is the examined building designed in regards to robustness? Can the building by current standards be referred to as robust? Which actions can be taken to achieve sufficient robustness?To answer these questions a survey of literature, relevant for the subject, has been conducted as well as discussions with professionals with expertise in the subject. Blueprints of a building from the million program era has also been collected and analyzed.Analysis of the blueprints show that the building was built with some regards to robustness. Horizontal ties were placed in joints to connect the floor elements and the floor elements with the wall elements. Between exterior wall elements vertical ties were also placed to handle vertical loads. However, vertical ties, that connect the inner walls to the floor elements, are none existent.Further analysis of these joints show that their capacity does not meet the requirement for them to be able to transfer the desired forces. Therefore actions have to be taken to meet current standards.The actions proposed in this study is based on placing flat steel connections and L-steel connections in the joints to increase the capacity and enable the required force transfers. The steel connections are anchored to the concrete with expansion anchors.The study leads to the following conclusions: The building is in some ways designed to withstand a progressive collapse. The wall elements are connected with horizontal and vertical ties to nearby elements. The floor elements are also connected with horizontal ties. The initial building design does not meet the requirements of the current standards in regards to robustness. To meet the current standards the joints have to be reinforced. These reinforcements are done by placing flat steel connections and L-steel connections in the joints. These actions only fulfill the requirements of the concrete structures standard. robusthet prefab miljonprogrammet prefabricerade betongelement betongkonstruktioner fortskridande ras collapse resistance robustness structural integrity million program era precast concrete structure disproportionate collapse progressive collapse collapse alternativ lastväg alternative load paths dragband väsentlig bärverksdel olyckslast Engineering and Technology Teknik och teknologier
66	Sportovní centrum Za Lužánkami Brno / Sport Centre Za Lužánkami Brno Podolská, Hana January 2016 (has links) A specialized project of „Sports center behind Lužánky Brno“ preceded the diploma thesis. The aim of the project was to develop a comprehensive urban architectural plan with an emphasis on the urban context, transport services, functionality, etc. The diploma thesis develops a previous project and elaborates the compound of the sport center in a form of a study. As a result, there is a building that combines a recreational and social function due to sports halls, restaurants, clubs and residential atrium. The object is divided in three parts, the middle one is used for a main communicative area that connects the other parts of the building.
67	Nosná konstrukce vícepodlažního železobetonového objektu / The load bearing structure of multi-storey reinforced concrete builidng Burda, Patrik January 2018 (has links) The diploma thesis is focused on design on loadbearing reinforced concrete structure of multi-storey apartment building with shops and offices on the ground floor and underground garage. The thesis consists of the analysis and design of ceiling slabs above underground floor, supporting columns and the beam under the underground floor ceiling slab. Calculation 3D model was created to determine internal forces. All structures are designed according to EC2, ČSN EN 1992-1-1. The thesis includes elaboration of static calculation, shape drawings, drawings of reinforcement of solved structures. The rest of the project part are not analysed.
68	Stavebně technologický projekt bytového domu Fryčajova, Brno / Architectural and technological project of a residential building Fryčajova, Brno Šemberková, Klára January 2018 (has links) The subject of my master´s thesis is architectural and technological project of a residental building Fryčajova, Brno. My work contain engineering report of architectural and technological project, study of realization of the main stage, project of site equipment, design of building mechanization, time plans, technological note of floor structure, control and test plans, work safety plan, environment, budget of carcass, economic balance sheet and specialization on concrete structures.
69	Administrativní centrum / Office Centre Robotka, David January 2018 (has links) This diploma thesis deals with design of steel structure with composite steel-concrete floor structure of a office building.The building is located in Moravský Krumlov. The Office buidling consist of multi-storey building and an entrance atrium. The total ground plan's dimensions are 52,8m x 48,0m. The multi-storey building has 8 floor. The maximum heigh of the building is 25,32m above ground. The project is designed in two options. For winning variant is including check and it is performed a drawings with design and check assembly details and anchorage.
70	Architektonická studie cyklistického stadionu /dráhy/ Favorit Brno /na volné ploše v Brně Komárově/. / Architectural study of the cycling stadium / runway / Favorit Brno / on the open space in. Dvořáková, Šárka January 2018 (has links) A specialized project of „Architectural study of modification of the bicycle stadium Favorit Brno in the BVV area and urban design of the Hněvkovský sports complex in Komárov“ preceded the diploma thesis. The aim of the project was preparation of the area for cycling stadium with all the necessary facilities and functional connections. The diploma thesis develops a previous project and elaborates the compound of the cycling stadium in a form of a study. The building should recpect to the current demands of this sport, such as a closed roof of the building, siberian pine track material and a 250-meter track length. The building will be situated in the area adjacent to the current biker complex in Brno Komárov.

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