Global ETD Search

41	Seismic damage avoidance design of warehouse buildings constructed using precast hollow core panels : a thesis submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Civil Engineering in the University of Canterbury / Abdul Hamid, N. H. January 2006 (has links) Thesis (Ph. D.)--University of Canterbury, 2006. / Typescript (photocopy). Includes bibliographical references. Also available via the World Wide Web.
42	Mésalignements du taux de change et croissance économique en Afrique subsaharienne / Exchange rate misalignments and economic growth in Sub-saharan Africa Owoundi, Ferdinand 07 December 2015 (has links) Face au succès des économies d'Asie du sud-est, favorisé par une stratégie de croissance tirée par les exportations, une importante littérature s'est développée autour de la question de l'incidence des mésalignements du taux de change sur la croissance économique. Notre travail apporte un éclairage complémentaire sur ce sujet, en focalisant sur le cas particulier des économies d'Afrique Subsaharienne dont l'évolution globale de la croissance semble connaitre un regain depuis le début du 21ème siècle. Dans cette perspective, nous nous intéressons, dans un premier temps, à la question de la détermination du taux de change d'équilibre, puisque ce dernier sert de référence dans l'évaluation des mésalignements. Cette étape nous permet d'aborder la question de l'apport du régime de change dans la limitation des mésalignements. Il apparaît alors que l'apport du régime de change en termes de limitation des mésalignements est ambigu. À l'issue de cette analyse, nous envisageons, dans un second temps, l'évaluation proprement dite de l'influence des mésalignements sur la croissance de 16 pays d'Afrique Subsaharienne. Au terme de cette recherche, les résultats obtenus montrent que la surévaluation agit négativement sur la croissance économique. Pour autant, la sous-évaluation n'exerce pas d'effet favorable, quel que soit le cadre institutionnel retenu. De ce fait, il semble que la solution de sortie de l'union monétaire pour les pays de la Zone Franc ne peut pas être justifiée par l'espoir de retrouver une marge de manœuvre supplémentaire à travers la manipulation du change. / Faced with the success of Southeast Asian economies, fueled by an export-led growth strategy, an important literature developed around the question of the growth effects of exchange rate misalignments. This work provides further insights on this question, by focusing on the particular case of Sub-Saharan African countries, whose growth has picked up since the beginning of the 21st century. In this perspective, we first determine the equilibrium exchange rate as this value provides a benchmark for the computation of misalignments. This step allows us to tackle the importance of the exchange rate regime in limiting misalignments. It seems that the exchange rate regime has an ambiguous effect on limiting misalignments. Subsequent to this analysis, we assess the impact of misalignments on growth in 16 Sub-Saharan African countries. The results of this assessment are in favor of the thesis that the overvaluation acts negatively on growth. However, the under-valuation of the exchange rate does not have a positive effect, irrespective of the institutional framework considered. Therefore, it seems that countries' exit from the Franc Zone cannot be justified by the expectation that the manipulation of the exchange rate would offer countries more policy flexibility. Taux de Change Mésalignements Croissance Économique Panels hétérogènes Exchange Rate Misalignments Economic Growth Heterogeneous Panels 330
43	Buckling behavior of reinforced concrete plate models Seck, Abdoulaye Yaya January 2011 (has links) Typescript (photocopy). / Digitized by Kansas Correctional Industries Concrete panels--Testing Materials--Dynamic testing Buckling (Mechanics)
44	Photovoltaic power potential on Gotland: A comparison with load, wind power and power export possibilities Zaar, Emil January 2016 (has links) The Swedish Island of Gotland provides an interesting case of how renewable energy technologies can be combined and integrated into the electricity system. The study simulates the load, wind power production and PV power production to estimate the PV power potential for existing buildings on Gotland. The theoretical PV power potential on Gotland is calculated to be 667 MW. The PV power potential is split between 28% for dwelling buildings, 9% for multi-dwelling buildings, 7% for industry and 56% for other buildings. The current limit for wind power on Gotland is 195 MW. With the installed capacity of 194 MW wind power, an additional of 22 MW of PV power is possible to integrate without increasing the hours of overload on the power cable. With the prospected submarine power cable, a total of 529 MW PV power is possible to integrate with the existing 194 MW of wind power. Sustainable Development Gotland Photovoltaic Solar Panels Wind Power Potential Load
45	Reducing top mat reinforcement in bridge decks Foster, Stephen Wroe, 1986- 21 October 2010 (has links) The Texas Department of Transportation (TxDOT) uses precast, prestressed concrete panels (PCPs) as stay-in-place formwork for most bridges built in Texas. The PCPs are placed on the top flanges of adjacent girders and topped with a 4-in. cast-in-place (CIP) slab. This thesis is directed towards identifying and quantifying the serviceability implications of reducing the deck reinforcement across the interior spans of CIP-PCP decks. The goal of this research is to understand how the PCPs influence cracking and crack control in the CIP slab and to make recommendations to optimize the top mat reinforcement accordingly. Several tests were conducted to evaluate the performance of different top mat reinforcement arrangements for ability to control crack widths across PCP joints. The longitudinal reinforcement was tested using a constant bending moment test, a point load test, and several direct tension tests. Because of difficulty with the CIP-PCP interface during the longitudinal tests, direct tension tests of the CIP slab only were used to compare the transverse reinforcement alternatives. Prior to testing, various top mat design alternatives were evaluated through pre-test calculations for crack widths. Standard reinforcing bars and welded wire reinforcement were considered for the design alternatives. During this study, it was found that the tensile strength of the CIP slab is critical to controlling transverse crack widths. The CIP-PCP interface is difficult to simulate in the laboratory because of inherent eccentricities that result from the test specimen geometry and loading conditions. Furthermore, the constraint and boundary conditions of CIP-PCP bridge decks are difficult to simulate in the laboratory. Based on the results of this testing program, it seems imprudent to reduce the longitudinal reinforcement across the interior spans of CIP-PCP decks. The transverse reinforcement, however, may be reduced using welded wire reinforcement across the interior spans of CIP-PCP decks without compromising longitudinal crack width control. A reduced standard reinforcing bar option may also be considered, but a slight increase in longitudinal crack widths should be expected. / text Bridge deck Reinforcement Top mat Crack widths Precast panels
46	Sound Transmission Loss of Sandwich Panels Phillips, Timothy Jason Nirmal January 2012 (has links) The sound transmission loss characteristics of plywood based sandwich panels were investigated. Measurements were made of the sound transmission loss of a range of materials and used as a baseline for comparison while a sound transmission loss optimisation method was developed. A unique test rig was built and calibrated to determine selected mechanical properties of materials of interest. The results of sound transmission loss and material properties measurements were used to select an appropriate prediction model, which was then used in conjunction with a mathematical optimisation model to determine combinations of materials and panel parameters which result in improved sound transmission loss. An effort was made to reproduce these predictions in experimental testing by constructing several prototype panels. acoustic sound transmission loss sandwich panels noise reduction viscoelsatic damping
47	Seismic performance of precast concrete cladding systems. Baird, Andrew January 2014 (has links) Structural engineering is facing an extraordinarily challenging era. These challenges are driven by the increasing expectations of modern society to provide low-cost, architecturally appealing structures which can withstand large earthquakes. However, being able to avoid collapse in a large earthquake is no longer enough. A building must now be able to withstand a major seismic event with negligible damage so that it is immediately occupiable following such an event. As recent earthquakes have shown, the economic consequences of not achieving this level of performance are not acceptable. Technological solutions for low-damage structural systems are emerging. However, the goal of developing a low-damage building requires improving the performance of both the structural skeleton and the non-structural components. These non-structural components include items such as the claddings, partitions, ceilings and contents. Previous research has shown that damage to such items contributes a disproportionate amount to the overall economic losses in an earthquake. One such non-structural element that has a history of poor performance is the external cladding system, and this forms the focus of this research. Cladding systems are invariably complicated and provide a number of architectural functions. Therefore, it is important than when seeking to improve their seismic performance that these functions are not neglected. The seismic vulnerability of cladding systems are determined in this research through a desktop background study, literature review, and postearthquake reconnaissance survey of their performance in the 2010 – 2011 Canterbury earthquake sequence. This study identified that precast concrete claddings present a significant life-safety risk to pedestrians, and that the effect they have upon the primary structure is not well understood. The main objective of this research is consequently to better understand the performance of precast concrete cladding systems in earthquakes. This is achieved through an experimental campaign and numerical modelling of a range of precast concrete cladding systems. The experimental campaign consists of uni-directional, quasi static cyclic earthquake simulation on a test frame which represents a single-storey, single-bay portion of a reinforced concrete building. The test frame is clad with various precast concrete cladding panel configurations. A major focus is placed upon the influence the connection between the cladding panel and structural frame has upon seismic performance. A combination of experimental component testing, finite element modelling and analytical derivation is used to develop cladding models of the cladding systems investigated. The cyclic responses of the models are compared with the experimental data to evaluate their accuracy and validity. The comparison shows that the cladding models developed provide an excellent representation of real-world cladding behaviour. The cladding models are subsequently applied to a ten-storey case-study building. The expected seismic performance is examined with and without the cladding taken into consideration. The numerical analyses of the case-study building include modal analyses, nonlinear adaptive pushover analyses, and non-linear dynamic seismic response (time history) analyses to different levels of seismic hazard. The clad frame models are compared to the bare frame model to investigate the effect the cladding has upon the structural behaviour. Both the structural performance and cladding performance are also assessed using qualitative damage states. The results show a poor performance of precast concrete cladding systems is expected when traditional connection typologies are used. This result confirms the misalignment of structural and cladding damage observed in recent earthquake events. Consequently, this research explores the potential of an innovative cladding connection. The outcomes from this research shows that the innovative cladding connection proposed here is able to achieve low-damage performance whilst also being cost comparable to a traditional cladding connection. It is also theoretically possible that the connection can provide a positive value to the seismic performance of the structure by adding addition strength, stiffness and damping. Finally, the losses associated with both the traditional and innovative cladding systems are compared in terms of tangible outcomes, namely: repair costs, repair time and casualties. The results confirm that the use of innovative cladding technology can substantially reduce the overall losses that result from cladding damage. Cladding Precast concrete panels Non-structural elements
48	The Numerical Prediction of the Dent Resistance of Aluminum Structural Panel Assemblies Hodgins, Blake January 2001 (has links) An examination of static and dynamic dent resistance of structural panel assemblies representing automotive hoods is described in this thesis. Fabricated panel assemblies incorporating typical components of real automotive parts were tested. The panel assemblies included an AA5754 inner panel using an array of teacup supports and an AA6111 closure panel joined with automotive mastic. The assemblies allowed for parametric assessment of numerous factors affecting dent resistance including: panel thickness, panel curvature, panel support configuration and dent site location. An extensive experimental program evaluated various panel combinations under both static and dynamic denting conditions. The measured results illustrate various trends of the different factors affecting dent resistance. The experimental database allows a qualitative assessment of dent resistance for full-scale automotive parts. The importance of support conditions is highlighted. The influence of mastic thickness is found to be a critical consideration. Numerical simulations of the dent test were undertaken using finite element techniques. The numerical predictions offer varying degrees of accuracy. The quantitative results are limited, due to numerical concerns, but the qualitative trends are generally well captured. As well, the relative importance of the various parametric factors is well represented in the numerical results. The interaction of the components at the teacup supports proved to critical to the predictive ability of the models. The method developed to model the interaction was somewhat limited by the available material models within the numerical code used, but offers promise for improved results in future simulations. The modelling method is readily transferred to full-scale automotive panels for assessment of dent resistance early in the design cycle. Mechanical Engineering dent resistance aluminum structural panels FEM automotive
49	Numerical modelling of the compression-after-impact behaviour of composite sandwich panels James, Chris T. January 2015 (has links) Sandwich panels using fibre-reinforced composite skins and low-density cores are being increasingly used in the aerospace industry due to their superior specific strength and stiffness, and increased design flexibility over traditional metallic and composite structures. However, it is well-known that sandwich panels are highly vulnerable to the effects of impact damage, with even low-energy impacts potentially causing very severe reductions in the in-plane compressive strength of these structures. The objective of this project was to produce a faithful and reliable numerical model for the simulation of the compression-after-impact strength of composite sandwich panels. An in-depth literature review revealed that delamination within the skins of a sandwich panel is a damage mechanism that has gone almost entirely neglected in previous efforts at modelling this problem, despite the proven significance of this mechanism in the failure of impact damaged sandwich panels in compression. Consequently, the use of the cohesive zone model for delamination initiation and propagation is the key unique feature of this model, with Hashin s criteria being used for intra-laminar damage formation, and a simple plasticity response capturing core crushing. An experimental study is performed to produce a thorough dataset for model validation, featuring differing levels of damage induced via quasi-static indentation, and novel asymmetric panels with skins of unequal thickness (the thinner skin being on the unimpacted side). The experimental study revealed that the use of a thinner distal (undamaged) skin could improve the strength of mildly damaged sandwich panels over undamaged sandwich panels using the same asymmetric configuration. It is believed that this effect is due to the movement of the neutral plane of the sandwich panel caused by the reduction in the stability of the damaged skin through stiffness reduction and geometric imperfections. This removes the eccentricity of the compressive loading that exists in the undamaged asymmetric panels, which has mismatched axial stiffness between the indented skin and the thinner distal skin, and thus a noticeably lower ultimate strength than the undamaged symmetric panels. The sandwich model is developed using pre-existing experimental and material data, and trialled for a variety of different skin lay-ups, core thicknesses and indenter sizes. The numerical model generally agreed well with the ultimate stress found in the experiments for these different configurations, but is quite poor at estimating the magnitude of the damage induced by the indentation. When used to model the experimental study, the model gave generally good, conservative estimates for the residual compressive strength of both the symmetric and asymmetric panels. The tendency of the asymmetric panels to become stronger with mild damage was not captured by the model per se, with the numerical results instead showing an insensitivity to damage in the asymmetric panels, which was not shared by the symmetric panels. However, the numerical model did exhibit erroneous strain-stress responses for both panel configurations, particularly for the undamaged and mildly damaged cases. Investigations revealed that this erroneous behaviour was caused by inconsistency in the material data, which had been collected partially via experimentation and partly from literature sources. Overall, the model developed here represents a promising advancement over previous efforts, but further development is required to provide accurate damage states. 629.1
50	Análise da resistência da área de colagem na produção de painéis sarrafeados empregando-se adesivo poliuretano / Biazzon, João Carlos. January 2018 (has links) Orientador: Ivaldo De Domenico Valarelli / Banca: Alexandre Jorge Duarte de Souza / Banca: Elen Aparecida Martines Morales / Banca: Julio Cesar Molina / Banca: Priscila Roel de Deus / Resumo: O presente trabalho teve como objetivo verificar o desempenho e a resistência mecânica de dois tipos de emendas dentadas laterais com diferentes geometrias que poderiam estar presentes na produção industrial de painéis sarrafeados colados de madeira das espécies de Pinus. Para a colagem dos painéis utilizou-se adesivo poliuretano à base de mamona formulado com condições especiais para resistir à umidade da madeira. A partir dos painéis confeccionados foram retirados os corpos de prova seguindo-se as especificações de ensaios da norma ABNT NBR 7190:1997 para os ensaios mecânicos de tração normal às fibras e cisalhamento na região de cola e EN 14080:2013 para o ensaio de delaminação. Como conclusão dos resultados obtidos nos ensaios de resistência os desempenhos das emendas dentadas laterais não foram satisfatórios em relação aos valores médios das amostras da madeira maciça. / Abstract: The present study aimed to verify the mechanical performance and strength of two types of toothed lateral joints with different geometries, that could be available for industrial production of batten boards based on Pinus elliottii woods species. For panel bonding, the castor oil-based polyurethane resin was used and formulated with special conditions to resist the moisture of the wood. Through batten boards glued laterally with two toothed lateral joints, specimens were obtained according to the specifications of the standard documents (Brazilian) ABNT NBR 7190:1997 related to mechanical tests of perpendicular tensile to fiber and shear strength in the glue region, and (European) EN 14080:2013 for delamination testing. As conclusion of the results obtained in the resistance tests the performance of the toothed lateral joints were not satisfactory in relation to the average values of the samples of solid wood. / Doutor Madeira serrada. Engenharia mecânica. Lâminas de madeira. Sawns Laminated panels

Search results