- About
-
The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
provided by the
Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
Search results
Showing 81 to 90 of 114 (0.029 seconds)Spelling suggestions: "subject:"hollowcore"" "subject:"followedmore""
| 81 |
Tvärkraftskapacitet för håldäck med en igjuten kanal / Shear Strength Capacity of Hollow-Core Slabs with One Core-FilledWester, Anna, Fröling, Moa January 2024 (has links)
Purpose: The purpose of the project is to modify the calculation model for the shearstrength capacity of Strängbetong's hollow-core slabs with one core-filled and with anS-bar.Method: The study’s methodology involves provoking the shear strength capacity ofhollow-core slabs with one core-filled through experimental destructive tests of twodifferent profiles of concrete hollow-core slab. The core-filling is produced with andwithout an S-bar to analyze the S-bar’s impact on the shear capacity. The experimentsare conducted over two days with full-scale test according to SS-EN 1168:2005 AnnexJ. Based on the test result from load tests and results from the calculation model inSS-EN 1168:2005 Annex F, analysis of the shear strength capacity is conducted tocreate a modified calculation model.Results: The findings reveal that the compressive strength of the concrete exceedsexpectations. The cross-sectional dimensions of the hollow-core slab are withinapproved limits. Average calculations indicate that the S-bar increases the shear strengthcapacity, although it is difficult to verify the increase. The standard model in SS-EN1168:2005 Annex F overestimates the shear strength capacity when compared with theresults from the load tests. Modified calculation models provide shear strength capacitybelow the standard model, as well as below the theoretically calculated ultimate load formost categories.Conclusion: It is possible to modify the standard model, however the results have awide variation. With only three load tests conducted, it can be concluded that there aretoo few test results to fulfill the purpose of this study / Syfte: Syftet med projektet är att ta fram en reviderad beräkningsmodell förtvärkraftskapacitet för Strängbetongs håldäck med en igjuten kanal med S-bygel.Metod: Studiens metodik innefattar att provocera fram tvärkraftskapaciteten förhåldäck med en igjuten kanal genom experimentellt förstörande tester av två olikahåldäcksprofiler i betong. Igjutningarna tillverkas med och utan S-bygel för attanalysera deras inverkan på tvärkraften. Experimenten utförs med fullskaleprover enligtSS-EN 1168:2005 Annex J under två dagar. Utifrån provresultaten frånbelastningstesterna samt med utgångspunkt från resultaten från beräkningsmodellen iSS-EN 1168:2005 Annex F genomförs analyser av tvärkraftskapaciteten för att skapa enreviderad beräkningsmodell.Resultat: Resultaten visar att betongens tryckhållfasthet är bättre än förväntat.Håldäckens tvärsnittsmått ligger inom godkända värden. Medelvärdesberäkningar visaratt S-bygeln ökar tvärkraftskapaciteten, men det är svårt att verifiera ökningen.Standardmodellen i SS-EN 1168:2005 Annex F överskattar tvärkraftskapaciteten vidjämförelse med de belastningstest som genomförts. Reviderade beräkningsmodeller gertvärkraftskapacitet under standardmodellen, men även under den teoretiskt beräknadebrottlasten för majoriteten av kategorierna.Slutsats: Det går att revidera standardmodellen, däremot har resultaten stor spridningoch med tre belastningstest går det att konstatera att det är för få provresultat för attkunna uppfylla syftet med den här studien.
|
| 82 |
Vilka hinder möter den svenska byggsektorn vid återbruk av håldäckselement?Akay, Ferhat, Khunchala, Masti January 2024 (has links)
Syftet med studien var att undersöka hinder för återbruk av håldäckselement i den svenska byggsektorn. Studien identifierar flera kritiska utmaningar. Dessa inkluderar ekonomiska hinder, regelverk och standarder, samt branschens acceptans och medvetenhet om återbruk. En av huvudpunkterna är bristen på incitament för återbruk på grund av relativt låga kostnader för avfallshantering jämfört med återbruk. En annan brist som leder till högre kostnader är att demontera och bearbeta återanvänt material. Nuvarande regelverk och standarder främjar inte heller återbruk i tillräcklig grad, där nyproduktion ofta ses som det enklare och billigare alternativet. Slutsatserna av studien understryker behovet av tydligare politiska styrmedel och incitament för att öka återbruket av byggmaterial. / The purpose of the study was to examine barriers to the reuse of hollow core slabs in the Swedish construction sector. The study identifies several critical challenges. These include economic barriers, regulations and standards, as well as the industry's acceptance and awareness of reuse. One of the main points is the lack of incentives for reuse due to relatively low waste management costs compared to reuse. Another shortfall leading to higher costs is the disassembly and processing of reused materials. Current regulations and standards also do not sufficiently promote reuse, where new production is often seen as the simpler and cheaper alternative. The conclusions of the study emphasize the need for clearer political directives and incentives to increase the reuse of building materials.
|
| 83 |
Push-off Tests on Shear Studs with Hollow-cored Floor Slabs.Lam, Dennis, Elliott, K.S., Nethercot, D.A. January 1998 (has links)
The shear capacity of headed studs in precast concrete hollow-core slab construction has been determined experimentally in 12 full-scale push-off tests. The tests were used to study the effects of the size of the gap between the ends of the precast slabs, and the amount of tie steel placed transversely across the joint, and the strength of concrete infill. Under certain situations the capacity of the stud is reduced compared with that in a solid reinforced concrete slab. Maximum resistances are compared with the predictions of BS 5950 and EC4, and a reduction formula for the precast effect is derived.
|
| 84 |
Miniature gas sensing device based on near-infrared spectroscopyAlfeeli, Bassam 06 December 2005 (has links)
The identification and quantification of atoms, molecules, or ions concentrations in gaseous samples are in great demand for medical, environmental, industrial, law enforcement and national security applications. These applications require in situ, high-resolution, non-destructive, sensitive, miniature, inexpensive, rapid detection, remotely accessed, real time and continuously operating chemical sensing devices. The aim of this work is to design a miniature optical sensing device that is capable of detecting and measuring chemical species, compatible with being integrated into a large variety of monitoring systems, and durable enough to be used under extreme conditions.
The miniature optical sensor has been realized by employing technologies from the optical communication industry and spectroscopic methods and techniques. Fused silica capillary tubing along with standard communication optical fibers have been utilized to make miniature gas sensor based on near-infrared spectroscopy for acetylene gas detection.
In this work, the basic principles of infrared spectroscopy are reviewed. Also, the principle of operation, fabrication, testing, and analysis of the proposed sensor are discussed in details. / Master of Science
|
| 85 |
Análise teórica e experimental de pisos mistos de pequena altura compostos por vigas metálicas e lajes alveolares de concreto / Theoretical and experimental analysis of slim floor systems composed by steel beam and concrete hollow core slabsSouza, Patricia Tavares de 22 March 2016 (has links)
No mercado mundial existe uma visível tendência de tornar as obras mais industrializadas e racionalizadas com o objetivo de reduzir os desperdícios, acelerar a velocidade de execução das obras e garantir maior qualidade às mesmas. A adoção de elementos estruturais com certo grau de industrialização pode trazer benefícios em relação aos custos, à mão de obra, ao tempo de execução e ao impacto ambiental. Neste contexto, as estruturas mistas de aço e concreto satisfazem essa necessidade, pois tanto os elementos de aço quanto os elementos de concreto podem ser pré-fabricados, ficando apenas as etapas de içamento e montagem a serem realizadas na obra, reduzindo o uso de fôrmas e escoramentos. Os pisos mistos de aço e concreto de pequena altura caracterizam-se pelo embutimento da laje de concreto na altura do perfil de aço, sendo a principal vantagem, em relação ao piso misto convencional, a redução da altura total do composto. Portanto, este trabalho tem como objetivo analisar o comportamento de pisos mistos de aço e concreto de pequena altura com laje alveolar em concreto protendido por meio de ensaios de cisalhamento direto (push-out test) e de flexão. Na solução proposta, a transferência de esforços entre o perfil de aço e a laje alveolar foi feita por meio de conectores tipo pino com cabeça e concreto moldado no local. Os resultados demonstraram-se promissores em termos de comportamento do piso misto de pequena altura, aumentando significativamente a rigidez do sistema em relação à viga de aço isolada. Em complemento, foi desenvolvida uma simulação numérica dos modelos físicos ensaiados utilizando o pacote computacional DIANA®, fundamentado no método dos elementos finitos, na qual o modelo numérico representou adequadamente o comportamento dos pisos mistos de pequena altura, permitindo análises paramétricas. / On the world market, there is a visible tendency to turn buildings construction more industrialized and rationalized in order to reduce waste, accelerate the construction speed and ensure higher quality to them. The adoption of structural elements with a degree of industrialization can bring benefits regarding costs, labor, construction time and environmental impact. In this context, steel and concrete composite structures satisfy this need, since steel and concrete elements can be prefabricated, with only lifting and mounting steps to be performed on site, reducing use of formwork and shoring. A type of slim floor system consists in precast concrete hollow core slabs supported on the lower flange of steel beams. The major advantage of this solution, compared to conventional composite beam, is reducing the overall height of the floor. Therefore, this study aims to analyze the behavior of slim floor with prestressed concrete hollow core slabs through push-out and bending tests. In the proposed solution, the transfer of forces between steel beam and hollow core slabs was made by stud bolts and cast on site concrete. The obtained results proved to be promising in terms of slim floor behavior, significantly increasing the system stiffness regarding the isolated steel beam. In addition, a numerical modeling of the studied slim floor system was developed, using finite element based software DIANA®, in which the numerical model adequately represented the behavior of the composite beam, allowing parametric analysis.
|
| 86 |
Shear Behaviour of Precast/Prestressed Hollow-Core SlabsCelal, Mahmut Sami 12 January 2012 (has links)
Shear strength of precast/prestressed hollow-core (PHC) slabs subjected to concentrated or line loads, especially near supports, may be critical and usually is the governing criteria in the design. This study presents the second phase of a research program, undergoing at the University of Manitoba, to calibrate the shear equations in the Canadian code for predicting the shear capacity of PHC slabs. This phase includes both experimental and numerical investigations using a finite element analysis (FEA) software package. The length of bearing, void shape and size, level of prestressing and shear span-to-depth ratio were investigated. The experimental results were compared to the predictions of the Canadian, American and European codes. It was concluded that the Canadian code is unduly conservative. However, the special European code for PHC slabs resulted in better and more consistent predictions. The FEA suggested that the adequate prestressing reinforcement ratio to obtain highest shear capacity ranges between 0.7% and 1.1%.
|
| 87 |
Shear Behaviour of Precast/Prestressed Hollow-Core SlabsCelal, Mahmut Sami 12 January 2012 (has links)
Shear strength of precast/prestressed hollow-core (PHC) slabs subjected to concentrated or line loads, especially near supports, may be critical and usually is the governing criteria in the design. This study presents the second phase of a research program, undergoing at the University of Manitoba, to calibrate the shear equations in the Canadian code for predicting the shear capacity of PHC slabs. This phase includes both experimental and numerical investigations using a finite element analysis (FEA) software package. The length of bearing, void shape and size, level of prestressing and shear span-to-depth ratio were investigated. The experimental results were compared to the predictions of the Canadian, American and European codes. It was concluded that the Canadian code is unduly conservative. However, the special European code for PHC slabs resulted in better and more consistent predictions. The FEA suggested that the adequate prestressing reinforcement ratio to obtain highest shear capacity ranges between 0.7% and 1.1%.
|
| 88 |
Análise teórica e experimental de pisos mistos de pequena altura compostos por vigas metálicas e lajes alveolares de concreto / Theoretical and experimental analysis of slim floor systems composed by steel beam and concrete hollow core slabsPatricia Tavares de Souza 22 March 2016 (has links)
No mercado mundial existe uma visível tendência de tornar as obras mais industrializadas e racionalizadas com o objetivo de reduzir os desperdícios, acelerar a velocidade de execução das obras e garantir maior qualidade às mesmas. A adoção de elementos estruturais com certo grau de industrialização pode trazer benefícios em relação aos custos, à mão de obra, ao tempo de execução e ao impacto ambiental. Neste contexto, as estruturas mistas de aço e concreto satisfazem essa necessidade, pois tanto os elementos de aço quanto os elementos de concreto podem ser pré-fabricados, ficando apenas as etapas de içamento e montagem a serem realizadas na obra, reduzindo o uso de fôrmas e escoramentos. Os pisos mistos de aço e concreto de pequena altura caracterizam-se pelo embutimento da laje de concreto na altura do perfil de aço, sendo a principal vantagem, em relação ao piso misto convencional, a redução da altura total do composto. Portanto, este trabalho tem como objetivo analisar o comportamento de pisos mistos de aço e concreto de pequena altura com laje alveolar em concreto protendido por meio de ensaios de cisalhamento direto (push-out test) e de flexão. Na solução proposta, a transferência de esforços entre o perfil de aço e a laje alveolar foi feita por meio de conectores tipo pino com cabeça e concreto moldado no local. Os resultados demonstraram-se promissores em termos de comportamento do piso misto de pequena altura, aumentando significativamente a rigidez do sistema em relação à viga de aço isolada. Em complemento, foi desenvolvida uma simulação numérica dos modelos físicos ensaiados utilizando o pacote computacional DIANA®, fundamentado no método dos elementos finitos, na qual o modelo numérico representou adequadamente o comportamento dos pisos mistos de pequena altura, permitindo análises paramétricas. / On the world market, there is a visible tendency to turn buildings construction more industrialized and rationalized in order to reduce waste, accelerate the construction speed and ensure higher quality to them. The adoption of structural elements with a degree of industrialization can bring benefits regarding costs, labor, construction time and environmental impact. In this context, steel and concrete composite structures satisfy this need, since steel and concrete elements can be prefabricated, with only lifting and mounting steps to be performed on site, reducing use of formwork and shoring. A type of slim floor system consists in precast concrete hollow core slabs supported on the lower flange of steel beams. The major advantage of this solution, compared to conventional composite beam, is reducing the overall height of the floor. Therefore, this study aims to analyze the behavior of slim floor with prestressed concrete hollow core slabs through push-out and bending tests. In the proposed solution, the transfer of forces between steel beam and hollow core slabs was made by stud bolts and cast on site concrete. The obtained results proved to be promising in terms of slim floor behavior, significantly increasing the system stiffness regarding the isolated steel beam. In addition, a numerical modeling of the studied slim floor system was developed, using finite element based software DIANA®, in which the numerical model adequately represented the behavior of the composite beam, allowing parametric analysis.
|
| 89 |
Sources laser fibrées hybrides de haute puissance : Amplification et conversion de fréquences / High power hybrid fiber laser sources : Amplification and frequency conversionBenoit, Aurélien 23 April 2015 (has links)
Les lasers à fibre de haute puissance constituent depuis une dizaine d’année un outil pertinent pour un nombre croissant d’applications. Dans le cadre d’un contrat CIFRE entre la société Eolite Systems et le laboratoire Xlim (UMR 7252 du CNRS et de l’Université de Limoges), mon projet de thèse a consisté à développer les briques technologiques de futures sources lasers / High-power fiber lasers adress an increasing number of applications since ten years. In the frame of a CIFRE contract between the company Eolite Systems and Xlim (joint laboratory between CNRS and the University of Limoges), the goal of this PhD project was to develop the technological blocs to achieve all-fibre high-power lasers emiting out of the conventional spectral band covered by existing lasers.Modal instabilities in large mode area (LMA) fibers are currently the main limitation of the fiber lasers power scaling. We have experimentally demonstrated the relevance of inner cladding aperiodic structures to efficiently delocalize higher order modes outside the gain region. A systematic study of passive fibers based on such structures has shown the single propagation of the fundamental mode over a wide wavelength range from 1 to 2 µm for dimension of core up to 85 µm. This effective mode delocalization even extends up to a core dimension of 140 µm at a 2 µm wavelength.The combination of high power picosecond fiber laser with an average power of 22.7 W and a hydrogen-filled inhibited coupling Kagome fiber allowed us to generate two Raman combs over five frequency octaves from 321 nm to 12.5 µm. These two combs are controlled by the laser pump polarization and generated an average power of 10.1 W displayed over 70 laser lines for circular pump polarization and 8.6 W over 30 lines for linear polarization. Some laser lines within these combs have been generated for the first time from high-power fiber source in the mid-infrared range. We have also demonstrated the generation of high-power line by optimizing the first vibrational Stokes at 1.8 µm with an average power of 9.3 W and a quantum efficiency of the frequency conversion stage close to 80%.
|
| 90 |
Utdragskapacitet Sidokoppling HåldäckSandahl, William, Bragsjö, Jesper January 2017 (has links)
To achieve structural integrity in precast concrete systems, connections between elements must be capable to transfer both vertical and horizontal loads which puts high demands on single ties. Hollow-core slabs are often used to stabilize the structural system which puts high demands on the connections between the slab and the buildings stabilizing units. Because of this, the connections need to withstand high tensile and shear forces. The purpose of this report is to investigate the tensile capacity of tie-connections used between hollow-core slabs that are parallel with e.g. stabilizing walls and compare with current design methods. Current design methods suggest that tensile failure will occur in the roof and bottom of the cores which provides low design capacities. Two connections are investigated through full scale pull-out tests where the results are compared with the design methods. The results from testing the tensile capacity show that the failure module occurred as suggested. However, the tests show significantly higher capacity than proposed by the design methods. Eurocodes Design assisted by testing are applied to the test result and a new design method is proposed. Both provides design values that are approximately twice as large as the values suggested in previous design methods.
|
Page generated in 0.0385 seconds