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41	SO 217 Most přes řeku Morávku v km 6.205 / Bridge across the Morávka river at km 6.205 Hollý, Tomáš January 2012 (has links) The subject of the thesis is to design and consider steel superstructure of a composite steel-concrete road bridge. It is a continuous beam with seven spans of 36,0 + 57,0 + 75,0 + 90,0 + 75,0 + 57,0 + 36,0 = 426 meters. The superstructure consists of welded I-beams, which pass into closed box girder. The calculations take into account the construction phase.
42	Most v obci Návsí přes řeku Olši / Bridge over the Olše river in Návsí Mendroková, Magda January 2013 (has links) The diploma thesis deals with design and assessment of steel arched bridge with the semi through bridge deck placed on the third-class road. This steel structure is drawn up to bridge water barrier – the river Olše in Návsí. The distance between axes lay on abutments is 48,5 meters. The bridge´s supporting structure consists of two steel arches angled towards each other and fastened to the foundation blocks. The supporting beam of the bridge deck is tied to the arch by tie-rods. The tie-rods are designed to the V-shaped system.
43	Obchodní galerie / Shopping Gallery Žák, Ondřej January 2014 (has links) Master's thesis addresses the design and assessment of the load bearing structure of the shopping gallery. The building is designed as a three-storey rectangular plan with a flat roof. The structure is composed of steel frames and composite steel and concrete slabs. There are proposed two possible solutions - variant with a flat roof and direct central gallery, a reinforced rigid steel frames and a variant with a cupola roofed circular inner atrium, solidified with rods.
44	Administrativní budova / Administration Building Frieda, Jan January 2014 (has links) This thesis aims to design a bearing composite steel structure for five-storey administration building with ground plan dimensions 35,00 x 50,00 m. Designed building has L-shaped plan, flat roof and attic all the way around. The largest part of the plan area occupies office zone with dimensions of 48,60 x 18,90 m. Contiguous zone communication and sanitation has dimensions of 13,50 x 15,90 m. Floor height is designed 3,60 m, the total height of the building is 18,70 m. Composite steel floor structure consists of transverse primary beams and hinge-connected secondary beams. Integrated formwork (trapezoidal sheet) has ribs oriented perpendicular to the secondary beams. Coupling is bidirectional. Construction will be done in two variants. Variant No.1 assumes primary and secondary beams (at the columns) hinge-connected with columns. In variant No.2 will be frame connection between primary beams and columns and together they will create 2D transverse frames with hinge-connected secondary beams. The supporting structure of the roof is designed similarly to ceiling, but reinforced concrete slab will be replaced with bracing in the roof plane and self-bearing rib sandwich panels. Vertical sheathing of the building provide sandwich panels and strip windows. The type of steel is S355. The building is designed for the site Hradec Králové. Standards and documents used in design of the bearing structure are included in the list of sources. The result of this work is a static analysis with an assessment of all elements of the selected (best) variant of the structure, drawing documentation and technical report.
45	Ocelová konstrukce multifunkční budovy / Steel structure of a multi-functional building Havíř, František January 2015 (has links) The aim of this master's thesis is to design the steel construction of a multifunctional building in the cadastral area of Brno-Bohunice. Multifunctional building consists of two identical buildings - A and B. Floor plan dimensions are 40.0 x 40.0 meters and height of 33,8 meters. Both objects have the 1st floor of the overall height of 5,0 m, each additional floors 3,5 m. The plan shape of the building is a square 40 x 40 m with bevel in the corners with a length of 8 m. In the middle of the building is roofed atrium 8 x 8 m. The buildings are in the 5th floor connected with the enclosed footbridge with a length of 10.0 meters. The main structure consists of two buildings columns and girders. Columns are alternatively solved as the composite steel and concrete structures with closed section filled with concrete or concreted steel profile. The girders are made of castellated beams. Among the girders are embedded solid panel joists and girders, coupled with the composite steel and concrete slab. Spatial rigidity besides the composite slabs provide rods placed around the atrium and in the corners of the building. The main structure of the footbridge consists of two inclined arched beams on which is placed stringer of the footbridge.
46	Ocelová konstrukce mostu na pozemní komunikaci / Steel structure of the bridge on the road Vlček, Radek January 2016 (has links) The content of the thesis is a proposal of steel load-bearing structure (carrying structure of a steel) bridge of the span of 31+74+31m with the bottom bridge deck taking over the second-class road in the territory of Olomouc city. The bridge deck is created by composite steel-concrete slab with crossbars. The solution was focused on using arched construction in the middle of the bridge with different tilt of arches to the horizontal central axis of the bridge. Under the term of the solution four alternatives have been calculated. The most optimal solution was selected and processed in detail. The calculations were made in compliance with the Czech technical norms ČSN EN.
47	Návrh silničního spřaženého mostu na obchvatu Bytomi / Design of steel-concrete composite structure of road bridge on by-road of Bytom Uhl, Milan January 2016 (has links) The task of the thesis is to design composite steel-concrete bridge consisting of four spans. Student will design two versions – continuous beam and four simple supported beams.
48	Obchodní dům / Trade House Čierny, Juraj January 2017 (has links) The aim of this diploma thesis is a design of the multy-storey steel structure with a wooden dome structure of the shopping centre in city of Banská Bystrica, Slovakia. Minimum build-up area is 2 000m2. Minimum number of storeys is set at 2. Steel structure is composed as a frame construction with composite steel-concrete ceilings. Building has 2 storeys at all. Wooden structure of dome is composed by glue laminated curved beams. The structural design and analysis is performed by software SCIA Engineer 15.
49	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.
50	Análise dinâmica não-linear de pisos mistos (aço-concreto) submetidos a ações humanas rítmicas. / Nonlinear dynamic analysis of mixed floors (steel-concrete) subjected to rhythmic human actions. Sidclei Gomes Gonçalves 21 December 2011 (has links) Atualmente, o crescimento dos problemas de vibrações excessivas sobre pisos mistos (aço-concreto) tem conduzido à necessidade de desenvolvimento de critérios específicos para projetos estruturais submetidos à ação de atividades humanas rítmicas. Com base no desenvolvimento desta dissertação de mestrado, objetiva-se, principalmente, verificar a influência das ligações estruturais (ligações viga-viga), sobre a resposta dinâmica não-linear de pisos mistos (aço-concreto) de edificações, quando submetidos a cargas dinâmicas humanas rítmicas. Deste modo, o carregamento dinâmico empregado para a simulação das atividades humanas sobre o modelo estrutural investigado foi obtido através de testes experimentais com indivíduos praticando atividades rítmicas e não rítmicas. O modelo analisado nesta dissertação corresponde a um piso misto (aço-concreto) com uma área total de 1600m2 e consiste de um ambiente onde serão desenvolvidas atividades de ginástica aeróbica. O sistema estrutural é constituído por lajes de concreto armado apoiadas sobre vigas de aço, simulando o comportamento de um sistema estrutural misto (aço-concreto) com interação total. A metodologia de análise desenvolvida emprega técnicas usuais de discretização presentes no método dos elementos finitos, com base no emprego do programa ANSYS. A modelagem do sistema contempla ligações estruturais do tipo rígidas, semirrígidas e flexíveis. Os valores das acelerações de pico foram comparados com os limites recomendados por normas de projeto, baseando-se em critérios de conforto humano. As conclusões alcançadas ao longo deste trabalho de pesquisa revelam que as ligações estruturais do tipo viga-viga não apresentam influência significativa, no que diz respeito a resposta dinâmica não-linear da estrutura. Por outro lado, as acelerações de pico obtidas com base na análise dinâmica não-linear apresentam valores elevados indicando que o piso misto (aço-concreto) investigado apresenta problemas de vibração excessiva inerentes ao conforto humano. / Nowadays, the increasing incidence of composite (steel-concrete) floors vibration problems due to human rhythmic activities led to a specific design criteria to be addressed in structural design. The main objective of this investigation is to evaluate the influence of the structural connections (beam-to-beam connections) on the composite floors nonlinear dynamic response, when submitted to human rhythmic dynamic loads. The dynamic loads were obtained through experimental tests with individuals carrying out rhythmic and non-rhythmic activities. The investigated structural model was based on building composite floors and consisted of a typical office building interior bay with a total are of 1600m2 used for aerobics. The structural system are composed of a composite (steel-concrete) solution made of an I steel profile and a reinforced concrete slab. In this investigation a complete interaction between the concrete slab and steel beams was considered. The proposed analysis methodology adopted the usual mesh refinement techniques present in the finite element method simulations implemented in the ANSYS program. The structural system finite element modelling have considered rigid, semi-rigid and pinned beam-to-beam joints. The peak accelerations were compared with limits proposed by design codes and recommendations, based on human comfort criteria. The results obtained in this investigation indicated that the structural connections (beam-to-beam connections) can have a relevant influence on the composite floor nonlinear dynamic response. On the other hand, the peak accelerations obtained in this investigation, based on a nonlinear dynamic analysis, indicated that the investigated composite floor violated the human comfort criteria, as well as its vibration serviceability limit states. Engenharia Civil Pisos mistos (aço-concreto) Análise dinâmica não-linear Ligações Viga-Viga Atividades humanas rítmicas Método dos elementos finitos Civil Engineering Composite (steel-concrete) floors Non-linear dynamic analysis Beam-to-beam connections Human rhythmic activities Finite element method ENGENHARIA CIVIL

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