Global ETD Search

41	Mekanisk prestanda hos traditionella träfogar kontra samtida byggbeslag / Mechanical performance of traditional wood joints compared to contemporary steel fasteners Dahl, Arvid, Lindström, Charlie January 2018 (has links) Samhället efterfrågar idag i allt högre grad miljövänlig och hållbar byggnation. Ett sätt möta dessa nya krav på miljövänlig byggnation är att använda mer trä då detta minskar koldioxidutsläpp genom substitutionseffekten. Syftet att undersöka huruvida traditionella fogningstekniker som helt utförs i trä kan ersätta samtida fogar i framtida byggnation. Målet är att visa att detta är möjligt ur hållfasthetssynpunkt. Undersökningen kommer att begränsas till att undersöka en pelar-balk-anslutning där den traditionella fogen representeras av tre olika varianter tapp i tapphålsfog och den samtida av balksko. Fogarna undersöks beräkningsmässigt samt genom försök där belastningsfallet ämnar ge en hög tvärkraft. Resultaten pekar på att det är möjligt att introducera den undersökta traditionella träfogningstekniken vid samtida byggnation. / Societies demand for environmentally friendly and sustainable construction is ever increasing. One way to meet these new demands on environmentally friendly construction is to use more wood which decreases carbon emissions through the substitution effect. This report aims to research whether traditional joinery techniques entirely executed in wood can replace contemporary joinery techniques in future construction. The goal is to show whether this is possible from a strength standpoint. The research will be limited in that it will strictly seek to study a pillar-beamconnection where the traditional joint researched will be three varying mortise and tenon joints and the contemporary joint is a joist hanger. The joints will be analyzed with calculation and experimentation where the load case aims to produce mainly shear in the joint. The results point towards it being possible to introduce this traditional joint in contemporary construction. traditional joinery mechanical joints substitution effect mortise and tenon joist hanger glulam strength traditionell fogningsteknik mekaniska fästanordningar substitutionseffekten tapp i tapphål balksko limträ hållfasthet Construction Management Byggproduktion Building Technologies Husbyggnad Other Civil Engineering Annan samhällsbyggnadsteknik
42	Low Frequency Impact Sound in Timber Buildings : Simulations and Measurements Olsson, Jörgen January 2016 (has links) An increased share of construction with timber is one possible way of achieving more sustainable and energy-efficient life cycles of buildings. The main reason is that wood is a renewable material and buildings require a large amount of resources. Timber buildings taller than two storeys were prohibited in Europe until the 1990s due to fire regulations. In 1994, this prohibition was removed in Sweden. Some of the early multi-storey timber buildings were associated with more complaints due to impact sound than concrete buildings with the same measured impact sound class rating. Research in later years has shown that the frequency range used for rating has not been sufficiently low in order to include all the sound characteristics that are important for subjective perception of impact sound in light weight timber buildings. The AkuLite project showed that the frequency range has to be extended down to 20 Hz in order to give a good quality of the rating. This low frequency range of interest requires a need for knowledge of the sound field distribution, how to best measure the sound, how to predict the sound transmission levels and how to correlate numerical predictions with measurements. Here, the goal is to improve the knowledge and methodology concerning measurements and predictions of low frequency impact sound in light weight timber buildings. Impact sound fields are determined by grid measurements in rooms within timber buildings with different designs of their joist floors. The measurements are used to increase the understanding of impact sound and to benchmark different field measurement methods. By estimating transfer functions, from impact forces to vibrations and then sound pressures in receiving rooms, from vibrational test data, improved possibilities to correlate the experimental results to numerical simulations are achieved. A number of excitation devices are compared experimentally to evaluate different characteristics of the test data achieved. Further, comparisons between a timber based hybrid joist floor and a modern concrete floor are made using FE-models to evaluate how stiffness and surface mass parameters affect the impact sound transfer and the radiation. The measurements of sound fields show that light weight timber floors in small rooms tend to have their highest sound levels in the low frequency region, where the modes are well separated, and that the highest levels even can occur below the frequency of the first room mode of the air. In rooms with excitation from the floor above, the highest levels tend to occur at the floor levels and in the floor corners, if the excitation is made in the middle of the room above. Due to nonlinearities, the excitation levels may affect the transfer function in low frequencies which was shown in an experimental study. Surface mass and bending stiffness of floor systems are shown, by simulations, to be important for the amount of sound radiated. By applying a transfer function methodology, measuring the excitation forces as well as the responses, improvements of correlation analyses between measurements and simulations can be achieved / ProWood / Silent Timber Build / Urban Tranquility / BioInnovation FBBB Low-frequency impact sound light weight floor timber joist floor tapping machine multi-storey timber building frequency response functions. Stegljud Other Civil Engineering Annan samhällsbyggnadsteknik Fluid Mechanics and Acoustics Strömningsmekanik och akustik
43	Vícepodlažní budova / Multi-storey building Cmajdálková, Alžběta January 2018 (has links) The subject of the master’s thesis is static design and assessment of the static load-bearing steel structure. The structure is designed for the site Brno. Specifically this is an eight-storey office building with a 54 x 12 m floor plan and a total height is 30,2 m. The steel structure is lovated betwrrn teo reinforced concrete towers secure for vertical transport. The structure is designed in three variants. In the one of them a steel frame with hingee attached elements. The ceiling structure is designed as composite steel and concrete structure.
44	Patrová budova / Multi-storey building Surovec, Daniel January 2018 (has links) The object of this thesis is to design and assess steel structure of multi-storey office center in Vsetín. Floor plan dimensions of building are 48x40m. The building has ten floors. Overall height is 35,5m. The building ceilings made of composite steel and concrete structure. The part of build are roofer atrium and one bigger room aula with dimensions 24x16m. Two construction variants were designed and assessed. Longitudinal and transverse rigity of variant A is ensured by truss bracing. Transverse rigity of variant B is ensured by truss bracing and longitudinal rigity is braced by bracing frames. The variant A is better.
45	Stavební průzkum a diagnostika konstrukce / Survey and Diagnostics of Building Construction Zlámal, Vojtěch January 2019 (has links) This diploma thesis deals with the position of diagnostics of reinforced concrete structures in the building industry. The theoretical part deals with the research of methods for practical part of this thesis and basic imagine of procedure. The practical part deals with the survey of an existing building, quality of concrete and reinforcement of elements. The last part is the static calculation of the selected element for the intended use of the building. At the end, the results of the construction and technical survey are evaluated.
46	Ocelová konstrukce vícepodlažní budovy / Steel structure of multi-storey building Podešť, Jakub January 2019 (has links) This diploma thesis deals with the design of a steel structure of a multi-storey building in the locality of Opava. The proposal is developed in two variant solutions. Variant 1 has ground plan dimensions of 37,5 m x 37,5 m and a height of 47 m. The variant 2 has ground plan dimensions of 45 m x 45 m and a height of 49,5 m. The modular size of the fields is 7,5 m x 7,5 m. The main supporting structure is made steel columns and beams, ceiling construction with composite steel and concrete joinst and roofing of arched laminated timber. The stability of the structure is ensured by vertical and roof bracings.
47	Ocelová konstrukce obytné budovy / The Steel Structure of a Residential Building Špeta, Václav January 2014 (has links) The master's thesis deals with a project of the steel structure of a residential building. The building is thought like sevenfloor balcony-access house. The access balcony is situated in atrium in the middle of the building, which is roofed with a shell dome. The regular hexagon creates a ground plan of each floor. Every floor is turned 30 degrees compared to the next floors. The longest cross dimension is 43 m (axial). The height of the building is 30,4 m (including copula envelope). The final structure is chosen on the basis of optimization of the structural variants. The climatic load angle structure falls into the locality of the town Brno. The vertical supporting structure is made from steel-concrete accoupled circular section columns. The floor structure is designed from the steel rolled section I and H. These support assembly of a horizontal structure. Some joists and girder are designed like accoupled with a concrete floor slab. The copula above atrium is made from glue laminated timber ribs. Infill rods are from steel tube. The top ring of copula is designed from the rolled section UPE.
48	Nosná konstrukce atypického rodinného domu ve Vrchlabí / The Structure of the Atypical Family House in Vrchlabí Vondráček, Vít January 2016 (has links) The subject of master’s thesis is design and assessment of steel load-bearing construction of atypical family house in Vrchlabí. Structure is designed as multi-storey steel structure, cooperating with stiff concrete core. The design was considered in four different options which combines possibility of using steel, steel and timber with different way of stiffness for whole structure. There is also composite steel-concrete alternative floor trimmer for selected option. Design and assessment was conducted in accordance with the applicable standards and by using software Scia Engineer.
49	Rekonstrukce zděné budovy / Restoration of masonry building Hubený, Radim January 2017 (has links) The final thesis is focused on restoration masonry building. Concretely assessment of resistance joist's floors, design alternative's strengthening and impact of surcharge on pronounces constructions. The choice one of alternatives strengthening, design and check of floor structure over the second floor.
50	Halmvägg som ett alternativ för Kulturborgen / Straw bale wall as an alternative for Kulturborgen Ohlsson, Hanna, Polubotko, Anastasia January 2022 (has links) In this thesis an alternative exterior wall construction for a specific building isinvestigated. The focus has been on investigating the material straw as a possiblecomponent in the future project Kulturborgen in Skåne, Sweden.Straw is a bio-based building material which, with a consideration to the climate crisis,has become a viable alternative intended to minimize carbon dioxide emissions from thebuilding sector. Through a compilation of the latest research on the material, theproperties of straw are presented in the theory chapter. Previous studies have shown thepotential of straw to be used as a load-bearing frame in house construction. However, dueto an adaptation to existing blueprints, the focus in this project has been on using straw asonly an insulating material together with load bearing I-joists. By modeling in AutodeskRevit and making calculations on the structure's load bearing capacity and thermalinsulation, a solution on an outer wall has been presented. The work culminates in aproposal for detailed drafts for a specific building that can become the basis for a possiblefurther development. / Halm är en restprodukt från odling av säd och andra grödor och räknas ur miljösynpunkttill ett mer hållbart alternativ än de konventionella byggnadsmaterial som producerasidag. Växtbaserade byggnadsmaterial som halm kan utgöra kolsänkor tack vare sinförmåga att fånga upp koldioxid från atmosfären och med tanke på en störreklimatmedvetenhet har biobaserade material blivit ett aktuellt alternativ ämnat attminimera koldioxidutsläppet från byggbranschen. Tidigare studier visar att halm har godaförutsättningar att användas som ett isolerande material tack vare sin lågavärmekonduktivitet. Halm kan även användas som en självbärande stomme eftersom denhar en hög lastöverföringsgrad. I kombination med en regelkonstruktion av annat materialkan halmen användas enbart som ett isolerande skikt mellan reglarna.Kulturborgen är ett storskaligt byggnadskomplex projekterat som en ringborg med ettöppet torg i mitten. Den byggnad som har studerats i detta examensarbete är enbart en deli komplexet, nämligen ett vandrarhem i två plan. I arbetet undersöks de möjligheter somfinns när en betongväggkonstruktion ersätts med ett biobaserat alternativ samt vilkakonsekvenser det kan få för projekteringen.I detta examensarbete undersöks en alternativ ytterväggskonstruktion för Kulturborgen.Fokus har varit att undersöka materialet halm som en möjlig beståndsdel i det framtidaprojektet Kulturborgen i Skåne, där den ursprungliga planen var att uppföra byggnadenmed prefabricerade betongelement.I en sammanställning av den senaste forskningen om materialet har halmens egenskaperoch tillämpning inom byggbranschen redovisats i ett teorikapitel. Olika metoder för attanvända halm som ett byggnadsmaterial har också tagits upp med avsikt att undersökavilken byggnadsmetod som passar bäst för Kulturborgen.På grund av anpassning till befintliga ritningar på Kulturborgen har användningen avhalm i detta projekt behandlats som enbart ett isoleringsmaterial där halmen är ett 400mm isolerande skikt i kombination med lättreglar med en bärande funktion. Lättreglarvaldes därför att de tack vare sitt I-tvärsnitt har en lägre andel trä än en regel med ettrektangulärt tvärsnitt. Detta gör att lättreglar är materialbesparande och ett lägre U-värdekan erhållas.En modell har tagits fram genom användning av programmet Autodesk Revit.Beräkningar på lättreglar har gjorts för att säkerställa att byggnaden klarar av alla lasterden utsätts för. U-värdesberäkningar utfördes för att kontrollera att vägguppbyggnadensom valdes fick ett U-värde som låg under 0,15 W/m2K, vilket hamnar inom en rimliggräns för en yttervägg. Slutligen har en lösning på en ytterväggskonstruktion presenterats.Arbetet mynnar ut i ett förslag på detaljlösningar för Kulturborgens vandrarhem ochdessa kan ligga till grund för en eventuell vidareutveckling. climate impact carbon sink straw straw bales straw wall design I-joist dimensioning u-value heat resistance klimatpåverkan kolsänka halm halmbalar halmvägg utformning lättregel lättbalk dimensionering u-värde värmemotstånd Building Technologies Husbyggnad Architectural Engineering Arkitekturteknik

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