Global ETD Search

171	Recovery and reuse of structural products from end-of-life buildings Hopkinson, P., Chen, H-M., Zhou, Kan, Wang, Y., Lam, Dennis 18 July 2018 (has links) Yes / Buildings and construction have been identified as having the greatest potential for circular economy value creation. One source of value creation is to recover and reuse building products from end-of-service-life buildings, rather than destructive demolition and downcycling. While there is a trade in non-structural and heritage product recovery and reuse, the largest volume, mass and value of most buildings comprise structural elements – concrete, brick and masonry, and steel – which present many challenges. A comprehensive literature review confirms limited attention to innovation and advanced techniques to address these challenges and therefore the potential reuse of the stocks of accumulated building products globally and associated environmental benefits. Potential techniques being tested in an Engineering and Physical Sciences Research Council circular economy research programme are referenced as a key building block towards circular economy building system redesign. / Engineering and Physical Sciences Research Council - research project Rebuild (EPSRC EP/P008917/1) Brickwork & masonry Buildings Structures & design Concrete structures
172	Performance sismique sous charge axiale nulle des murs en maçonnerie armée entièrement remplis de coulis Alfred, Anglade January 2016 (has links) Résumé : Cette juxtaposition de matériaux solides -blocs, pierres ou briques,...- liés ou non entre eux que nous appelons maçonnerie ne se comporte pas très bien vis-à-vis des forces latérales, surtout si elle n’a pas été réalisée suivant les normes parasismiques ou de façon adéquate. Cette vulnérabilité (glissement, cisaillement, déchirure en flexion, ou tout autre) vient souvent du fait même de ce processus d’empilement, des problèmes d’interaction avec le reste de la structure et aussi à cause des caractéristiques mécaniques peu fiables de certains éléments utilisés. Malgré cette défaillance structurale, la maçonnerie est encore utilisée aujourd’hui grâce à son côté traditionnel, sa facilité de mise en œuvre et son coût d’utilisation peu élevé. Depuis quelques années, la maçonnerie s’est enrichie de documents qui ont été publiés par divers chercheurs dans le but d’une meilleure compréhension des caractéristiques mécaniques des éléments et aussi, et surtout, des mécanismes de rupture des murs de maçonnerie pour une meilleure réponse face aux sollicitations sismiques. Beaucoup de programmes expérimentaux ont alors été effectués et tant d’autres sont encore nécessaires. Et c’est dans ce contexte que cette recherche a été conduite. Elle présentera, entre autres, le comportement sous charges latérales d’un mur en maçonnerie armée entièrement rempli de coulis. Ce projet de recherche fait partie d’un programme plus large visant à une meilleure connaissance du comportement sismique de la maçonnerie pour une amélioration des techniques de construction et de réparation des ouvrages en maçonnerie. / Abstract : This juxtaposition of solid materials -blocks, stones or bricks, ...- linked or not together called masonry does not behave very well towards lateral forces, especially if it has not been carried out according to seismic standards or enough adequate. This vulnerability - sliding, shearing, bending tear, or otherwise- comes often precisely because of this process of stacking, problems of interaction with the rest of the structure and also because of unreliable mechanical characteristics of used items. Despite this structural failure, masonry is still used today because of its traditional side, ease of implementation and low cost of use. In recent years, masonry was enriched with documents published by various researchers to a better understanding of the mechanical properties elements and also, above all, of the failure mechanisms masonry walls for a better response to seismic loading. Many experiences were then performed and many others are still necessary ; and therefore the Canada has for some time been involved in this adventure. And it is in this direction that goes this document. It presents, among others, the behavior under lateral loads of a reinforced masonry wall completely filled with grout. This research project is part of a broader program to a better understanding of the seismic behavior of masonry for an improvement of design and repair techniques of masonry. Maçonnerie armée Maçonnerie non armée Performance sismique Essai cyclique Vulnérabilité sismique Reinforced masonry Unreinforced masonry Seismic performance Cyclic test Seismic vulnerability
173	Avaliação da suscetibilidade da alvenaria estrutural a danos por exposição a altas temperaturas com medidas de controle da dilatação Menegon, Julia January 2017 (has links) A alvenaria estrutural é um dos mais antigos sistemas construtivos existentes. Atualmente estruturas em alvenaria encontram uma vasta aplicação em construções residenciais, sobretudo em obras de interesse social. No entanto, ao contrário das estruturas de concreto, cujo comportamento durante exposição ao fogo e sua resistência residual tem estudos e resultados amplamente disseminados, pouco se sabe a respeito do comportamento de estruturas de alvenaria submetidas à ocorrência de sinistros dessa natureza. Com a intensificação das preocupações acerca da segurança das edificações e de seus usuários em situações de incêndio, faz-se cada vez mais imprescindível o conhecimento do comportamento dos sistemas empregados atualmente na construção civil perante a ação de altas temperaturas. Tendo isso em vista, o presente trabalho teve por objetivo a realização de uma análise dos danos e do comportamento apresentados por amostras de alvenaria com função estrutural ao serem expostas ao aquecimento excessivo. Foram avaliadas nesse estudo paredes de pequenas dimensões executadas com blocos estruturais cerâmicos. Visando simular condições mais próximas da realidade, foram restringidas, com o auxílio de macacos hidráulicos, as laterais das amostras, para que houvesse contenção da dilatação das mesmas. Com o intuito de verificar diferentes tipologias de alvenarias, foram utilizados três blocos distintos: de 14 cm de largura, com resistências de 7 e 10 MPa, e de 19 cm de largura, com 7 MPa de resistência à compressão. Também foram variadas as espessuras das juntas entre as unidades e a argamassa de assentamento das mesmas, a fim de compreender a importância desses fatores para o comportamento das amostras, e, por fim, foram ensaiadas amostras com revestimento na face exposta As miniparedes foram acopladas a um forno de resistências elétricas e submetidas a um aquecimento próximo à curva padrão determinada por norma, até a temperatura máxima de 950ºC, a qual foi mantida pelo período de 4 horas. Foram mensurados, além da temperatura dentro do forno, no interior da parede e na superfície das amostras, os deslocamentos transversais ocorridos durante o ensaio. Também se utilizaram transdutores de deslocamento para verificar a dilatação dos blocos e o esmagamento ou abertura das juntas. Imagens termográficas da face oposta ao aquecimento foram capturadas no decorrer da exposição. Ao final das análises, pôde-se inferir que as miniparedes ensaiadas apresentaram bom desempenho frente à ação das altas temperaturas, mantendo sua estanqueidade, isolamento térmico e resistência mecânica. A restrição lateral não ocasionou desplacamentos dos blocos, no entanto, pôde-se observar transferência de tensão para os mesmos quando utilizadas nas juntas argamassas pouco flexíveis. O deslocamento transversal apresentado pelas amostras indicou deflexão em direção ao forno durante o aquecimento, com posterior reversão do sentido. Tal deflexão foi atenuada pela redução da espessura das juntas, pelo uso de argamassas menos flexíveis e pelo aumento da resistência e largura dos blocos. As alvenarias de 19 cm de largura e, especialmente, as dotadas de revestimento apresentaram melhor desempenho térmico que as demais. / Structural masonry is one of the oldest existing building systems. Nowadays, masonry structures find a wide application in residential constructions, mainly in those with social interest. However, unlike concrete structures, whose behavior during fire exposure and its residual resistance have widely disseminated studies and results, there is a lack of knowledge about the behavior of masonry structures submitted to fire. Because of the spread of concerns about the safety of buildings and their users in fire situations, it becomes essential to know the behavior of the systems currently used in civil construction when exposed to high temperatures. With this in view, the present study intended to analyze the damage and the behavior of structural masonry samples exposed to heating. This study evaluated clay hollow-bricks small walls, and, in order to simulate real conditions, the boundaries of the samples were restrained, with the aid of hydraulic jacks, aiming to restrain the deformation. In order to verify different types of masonry, three different blocks were used: 14 cm wide, with nominal strength of 7 and 10 MPa, and 19 cm wide, with 7 MPa of compressive strength. The thicknesses of the joints and the mortar were also varied, in order to understand the importance of these factors in the behavior of the samples, and, finally, samples were tested with a mono-layer coating at the exposed face. The small walls were coupled to an electrical furnace and subjected to a heating approximately equal to the standard curve, up to the maximum temperature of 950ºC, which was maintained for 4 hours The deflections of the samples during the test were measured, beyond the temperature inside the furnace, in the center of wall and at the non-exposed surface. Clip gages were also used to verify the expansion of the blocks and the crushing or opening of the mortar joints. Thermographic images of the opposite face were captured during the testing. At the end of this research, it was possible to affirm that the walls had good behavior against the high temperatures, maintaining their integrity, thermal insulation and load-bearing capacity. The restriction of the boundaries did not cause the spalling of the blocks, however, it was possible to observe the stress transfer to them in samples with rigid joint mortar. The deflection of the samples increases towards the furnace during the heating, and, then, they show the phenomenon of “reverse bowing”, changing the direction of the displacements. Reducing the thickness and increasing the stiffness of the joint mortars, as well as the increase in block strength and width attenuated such deflection. The masonry 19 cm width and, specially, the ones with coating shows better thermal performance, comparing to the others. Alvenaria estrutural Altas temperaturas Incêndios Blocos cerâmicos High temperatures Structural masonry Masonry wall Fired clay brick Fire-resistance
174	Estudo do efeito do não preenchimento das juntas verticais e eficiência do graute na resistência da alvenaria estrutural de blocos cerâmicos / Study of the effect of unfilled vertical joints and efficiency of grout in the strength of structural masonry of clay bricks Miranda, Larissa de Almeida 31 October 2012 (has links) No contexto do crescimento do processo construtivo em alvenaria estrutural, destaca-se o uso do bloco cerâmico consolidado com a criação de sua norma específica de projeto, execução e controle de obras, a NBR 15812, partes 1 e 2 (ABNT, 2010). Desde a difusão da alvenaria estrutural, mudanças nas técnicas construtivas vêm ocorrendo, como por exemplo, o não preenchimento das juntas verticais de assentamento dos blocos. Outra prática que tem sido utilizada é o grauteamento da alvenaria. No entanto, ainda não está estabelecido se o não preenchimento da junta vertical compromete o desempenho da alvenaria ou qual a resistência necessária ao graute para aumentar a resistência da alvenaria. Diante disto, o trabalho objetiva contribuir com o estudo do não preenchimento das juntas verticais avaliando o seu efeito na resistência à compressão e ao cisalhamento de pequenas paredes e também pesquisar a influência do graute em prismas e pequenas paredes submetidos à compressão. Com as análises dos resultados pode-se concluir que o não preenchimento das juntas verticais não exerceu influência nos valores de resistência à compressão e também nos módulos de elasticidade longitudinal das pequenas paredes ensaiadas. No entanto, influenciou significativamente os resultados do ensaio de compressão diagonal para avaliar a resistência ao cisalhamento, apesar do módulo de deformação transversal ter sido considerado equivalente. Os resultados do estudo preliminar em prismas mostraram que a média da resistência à compressão em relação à área bruta do prisma grauteado, utilizando o Graute A e o Graute C, foi equivalente à média do prisma oco. Assim, foi escolhido o Graute A para a confecção de pequenas paredes e prismas. Pode-se concluir com os resultados das pequenas paredes grauteadas que houve um aumento significativo da resistência à compressão em relação à área bruta, mas em relação à área líquida, os valores encontrados foram equivalentes às pequenas paredes ocas. Portanto o aumento na resistência à compressão na pequena parede foi proporcional ao ganho de área dado pelo grauteamento de seus vazios, diferentemente do comportamento observado nos prismas. / In the context of growth of structural masonry construction process, it highlight the use of the ceramic block consolidated with the creation of its specific standard of design, execution and control, the NBR 15812, Parts 1 and 2 (ABNT, 2010). Since the propagation of structural masonry, changes have occurred in the construction techniques, such as don\'t fill the vertical joints of the masonry wall. Another technique that has been used is the grouted masonry. However, it is not yet established if the unfilled vertical joints compromise the performance of masonry or which strength is necessary to the grout to increase the strength of the masonry. Therewith, the paper aims to contribute to the study of unfilled vertical joints by analyzing its effect on compressive strength and shear strength of small walls and also investigate the influence of grout in prisms and small walls under compression. With the analysis of the results we can conclude that do not fill the vertical joints had no influence on the values of compressive strength and elastic modulus of the small walls tested. However, it significantly affects the results of the diagonal compression test to evaluate shear strength, despite the shear elastic modulus being considered equivalent. The results of the preliminary study in prisms showed that the average of the compressive strength in relation to the gross area of the grouted prism using the Grout A and the Grout C were equivalent to the average of hollow prism. Thus, small walls and prisms with the Grout A were made. It can be concluded with the results of grouted small walls that there was a significant increase in compressive strength with respect to the gross area, but in relation to the net area, were similar to the hollow small wall. Therefore the increase in the compressive strength in a small wall is proportional to the gain of the area given by the grout, unlike the behavior observed in the prisms. Alvenaria estrutural Bloco cerâmico Clay brick Grauteamento Grouted masonry Junta vertical não preenchida Structural masonry Unfilled vertical joints
175	Experimental Investigation and Numerical Simulation of an Unreinforced Masonry Structure with Flexible Diaphragms Yi, Tianyi 06 April 2004 (has links) Unreinforced masonry (URM) construction, which has been widely used in the United States, presents a large threat to life safety and regional economic development because of its poor seismic resistance. In this research, the nonlinear seismic properties of URM structures were investigated via a quasi-static test of a full-scale two-story URM building and associated analytical and numerical studies. The tests of the 24ft. by 24ft. in plan 22ft. high URM building revealed that the damage was characterized by (1) the formation of large discrete cracks in the masonry walls and (2) the rocking and sliding of URM piers. Both of these results were consistent with the predictions based on individual component properties obtained in previous research. However, the tests also revealed significant global behavior phenomena, including flange effects, overturning moment effects, and the formation of different effective piers in a perforated wall. This global behavior greatly affected the response of the URM building tested. In order to understand the nonlinear behavior of the test structure, a series of analytical studies were conducted. First, at the material level, a mechanical key model was proposed to describe the failure of URM assemblages under a biaxial state of stress. Second, at the component level, an effective pier model was developed to illustrate the mixed failure modes of a URM pier and its nonlinear force-deformation relationship. Third, at the structure level, a nonlinear pushover model was built using the mechanical models at the material and component levels to describe the nonlinear properties of a URM building. This nonlinear pushover model and a three-dimensional finite element model were employed to analyze the test structure. Both gave results in good agreement with the test data. Improvements to current provisions for the evaluation of existing masonry structures were proposed. Unreinforced Experimental Analytical Masonry Structural stability Mathematical models Diaphragms (Structural engineering) Masonry Structural analysis (Engineering)
176	An Investigation Of Strengthening Of Historical Masonry Constructions By Steel Skeleton Kucukdogan, Bilge 01 August 2007 (has links) (PDF) Historical masonry structures are important cultural assets which reveal the social, archaeological, aesthetic, economical, political, architectural and technical features of their times. Within the course of the time, the structures have been exposed to the destructive effects of the nature and the man. Some has been able to survive somehow and others were totally ruined. Most of the remained structures are in vulnerable condition to upcoming effects and for the continuity of their presence, structural strengthening applications are needed. A variety of applications are used with different levels of respect to original fabric and different extents of intervention within the principles of international charters that regulate the intervention on historical monuments. In this study, a method of strengthening for the historical masonry constructions is developed in a general sense by the use of steel skeleton systems. In the proposed methodology, it is aimed to approach the intact structural conditions as much as possible in the strengthened structure. For the study a 3D model is created to compare the behaviors of the intact and the modified structure. In the modified model some structural elements are replaced by the steel skeleton system as a strengthening application. The behavioral investigation of the two models is performed in the finite element platform. Finally, it is certified that this methodology successfully efficient in approaching the original intact condition of the structure under concern as well as complying with the restoration principles.
177	A Simple Seismic Performance Assessment Technique For Unreinforced Brick Masonry Structures Aldemir, Alper 01 September 2010 (has links) (PDF) There are many advantages of masonry construction like widespread geographic availability in many forms, colors and textures, comparative cheapness, fire resistance, thermal and sound insulation, durability, etc. For such reasons, it is still a commonly used type of residential construction in rural and even in urban regions. Unfortunately, its behavior especially under the effect of earthquake ground motions has not been identified clearly because of its complex material nature. Hence, the masonry buildings with structural deficiencies belong to the most vulnerable class of structures which have experienced heavy damage or even total collapse in previous earthquakes, especially in developing countries like Turkey. This necessitates new contemporary methods for designing safer masonry structures or assessing their performance. Considering all these facts, this study aims at the generation of a new performance-based technique for unreinforced brick masonry structures. First, simplified formulations are recommended to estimate idealized capacity curve parameters of masonry components (piers) by using the finite element analysis results of ANSYS and regression analysis through SPSS software. Local limit states for individual masonry piers are also obtained. Then, by combining the component behavior, lateral capacity curve of the masonry building is constructed together with the global limit states. The final step is to define seismic demand of the design earthquake from the building through TEC2007 method. By using this simple technique, a large population of masonry buildings can be examined in a relatively short period of time noting that the performance estimations are quite reliable since they are based on sophisticated finite element analysis results.
178	ESTUDO DO COMPORTAMENTO MECÂNICO DE VERGAS ARMADAS COM TRELIÇAS PLANAS EM ALVENARIA ESTRUTURAL / ANALYSIS OF MECHANICAL BEHAVIOR OF LINTELS REINFORCED WITH PLANE TRUSS IN STRUCTUTURAL MASONRY Rezende, Fabiana Martins de 31 August 2012 (has links) The main goal of these studies were evaluate the mechanical behavior of structural masonry lintels built with hollow clay blocks. The compressive strength and failure mode of lintels under bending were determine using three different types of lintels: grouted and reinforced lintels made with U section blocks, structural blocks with horizontal prefabricated bedding joint reinforcements and horizontal and vertical joint reinforcements with MURFOR® steel reinforcement and stirrups. The test results indicated that the failures occur by shear strength. The use of lintels with grout demonstrated high levels of loading resistance, when compared with the others models. The use of horizontal and vertical reinforcement (MURFOR®), support higher level of loading, when it was compared with only horizontal joint reinforce. / O presente trabalho trata da análise experimental de vergas em paredes de alvenaria estrutural, executadas com blocos cerâmicos vazados, cujo objetivo principal é avaliar o comportamento mecânico e modos de ruptura, após aplicação de forças concentradas no terço médio do elemento. O programa experimental consistiu na confecção de vergas grauteadas e com armadura para flexão, utilizando-se blocos do tipo canaleta em U , e de vergas formadas por blocos estruturais e juntas de argamassa armadas, mediante o uso de treliças planas tipo MURFOR® e de estribos. Os resultados dos ensaios indicaram que as rupturas ocorreram pela ação de força cortante, verificando-se, pelo modo de ruptura, esmagamento localizado na parte superior de alguns blocos. Os modelos grauteados resistiram a níveis de cargas aplicadas maiores, comparados aos demais testados. Os modelos constituídos por blocos e armados nas juntas verticais e horizontais de argamassa, suportaram intensidades maiores de força que os modelos reforçados somente nas juntas horizontais, comprovando o aumento na resistência à força cortante dos elementos testados. Alvenaria estrutural Blocos cerâmicos, Vergas, MURFOR® Structural Masonry Clay Block Lintel MURFOR® reinforcement masonry CNPQ::ENGENHARIAS::ENGENHARIA CIVIL
179	Avaliação da suscetibilidade da alvenaria estrutural a danos por exposição a altas temperaturas com medidas de controle da dilatação Menegon, Julia January 2017 (has links) A alvenaria estrutural é um dos mais antigos sistemas construtivos existentes. Atualmente estruturas em alvenaria encontram uma vasta aplicação em construções residenciais, sobretudo em obras de interesse social. No entanto, ao contrário das estruturas de concreto, cujo comportamento durante exposição ao fogo e sua resistência residual tem estudos e resultados amplamente disseminados, pouco se sabe a respeito do comportamento de estruturas de alvenaria submetidas à ocorrência de sinistros dessa natureza. Com a intensificação das preocupações acerca da segurança das edificações e de seus usuários em situações de incêndio, faz-se cada vez mais imprescindível o conhecimento do comportamento dos sistemas empregados atualmente na construção civil perante a ação de altas temperaturas. Tendo isso em vista, o presente trabalho teve por objetivo a realização de uma análise dos danos e do comportamento apresentados por amostras de alvenaria com função estrutural ao serem expostas ao aquecimento excessivo. Foram avaliadas nesse estudo paredes de pequenas dimensões executadas com blocos estruturais cerâmicos. Visando simular condições mais próximas da realidade, foram restringidas, com o auxílio de macacos hidráulicos, as laterais das amostras, para que houvesse contenção da dilatação das mesmas. Com o intuito de verificar diferentes tipologias de alvenarias, foram utilizados três blocos distintos: de 14 cm de largura, com resistências de 7 e 10 MPa, e de 19 cm de largura, com 7 MPa de resistência à compressão. Também foram variadas as espessuras das juntas entre as unidades e a argamassa de assentamento das mesmas, a fim de compreender a importância desses fatores para o comportamento das amostras, e, por fim, foram ensaiadas amostras com revestimento na face exposta As miniparedes foram acopladas a um forno de resistências elétricas e submetidas a um aquecimento próximo à curva padrão determinada por norma, até a temperatura máxima de 950ºC, a qual foi mantida pelo período de 4 horas. Foram mensurados, além da temperatura dentro do forno, no interior da parede e na superfície das amostras, os deslocamentos transversais ocorridos durante o ensaio. Também se utilizaram transdutores de deslocamento para verificar a dilatação dos blocos e o esmagamento ou abertura das juntas. Imagens termográficas da face oposta ao aquecimento foram capturadas no decorrer da exposição. Ao final das análises, pôde-se inferir que as miniparedes ensaiadas apresentaram bom desempenho frente à ação das altas temperaturas, mantendo sua estanqueidade, isolamento térmico e resistência mecânica. A restrição lateral não ocasionou desplacamentos dos blocos, no entanto, pôde-se observar transferência de tensão para os mesmos quando utilizadas nas juntas argamassas pouco flexíveis. O deslocamento transversal apresentado pelas amostras indicou deflexão em direção ao forno durante o aquecimento, com posterior reversão do sentido. Tal deflexão foi atenuada pela redução da espessura das juntas, pelo uso de argamassas menos flexíveis e pelo aumento da resistência e largura dos blocos. As alvenarias de 19 cm de largura e, especialmente, as dotadas de revestimento apresentaram melhor desempenho térmico que as demais. / Structural masonry is one of the oldest existing building systems. Nowadays, masonry structures find a wide application in residential constructions, mainly in those with social interest. However, unlike concrete structures, whose behavior during fire exposure and its residual resistance have widely disseminated studies and results, there is a lack of knowledge about the behavior of masonry structures submitted to fire. Because of the spread of concerns about the safety of buildings and their users in fire situations, it becomes essential to know the behavior of the systems currently used in civil construction when exposed to high temperatures. With this in view, the present study intended to analyze the damage and the behavior of structural masonry samples exposed to heating. This study evaluated clay hollow-bricks small walls, and, in order to simulate real conditions, the boundaries of the samples were restrained, with the aid of hydraulic jacks, aiming to restrain the deformation. In order to verify different types of masonry, three different blocks were used: 14 cm wide, with nominal strength of 7 and 10 MPa, and 19 cm wide, with 7 MPa of compressive strength. The thicknesses of the joints and the mortar were also varied, in order to understand the importance of these factors in the behavior of the samples, and, finally, samples were tested with a mono-layer coating at the exposed face. The small walls were coupled to an electrical furnace and subjected to a heating approximately equal to the standard curve, up to the maximum temperature of 950ºC, which was maintained for 4 hours The deflections of the samples during the test were measured, beyond the temperature inside the furnace, in the center of wall and at the non-exposed surface. Clip gages were also used to verify the expansion of the blocks and the crushing or opening of the mortar joints. Thermographic images of the opposite face were captured during the testing. At the end of this research, it was possible to affirm that the walls had good behavior against the high temperatures, maintaining their integrity, thermal insulation and load-bearing capacity. The restriction of the boundaries did not cause the spalling of the blocks, however, it was possible to observe the stress transfer to them in samples with rigid joint mortar. The deflection of the samples increases towards the furnace during the heating, and, then, they show the phenomenon of “reverse bowing”, changing the direction of the displacements. Reducing the thickness and increasing the stiffness of the joint mortars, as well as the increase in block strength and width attenuated such deflection. The masonry 19 cm width and, specially, the ones with coating shows better thermal performance, comparing to the others. Alvenaria estrutural Altas temperaturas Incêndios Blocos cerâmicos High temperatures Structural masonry Masonry wall Fired clay brick Fire-resistance
180	Contribuição para o emprego de portas modulares em projetos de alvenaria estrutural / Assessing the use of modular door leafs in designing structural masonry Grabarz, Regina Candeloro 15 August 2012 (has links) Made available in DSpace on 2016-06-02T20:09:17Z (GMT). No. of bitstreams: 1 4800.pdf: 10440406 bytes, checksum: e74b9d2a19207b02796d6d5a98de2254 (MD5) Previous issue date: 2012-08-15 / Financiadora de Estudos e Projetos / The construction industry often related to high handwork production processes, which results in waste of physical and financial resources. The current great demand for new buildings leads to the need of industrialized elements, components and technologies in order to push the evolution of the construction process. In view of these aspects, modular coordination stands out as an excellent strategic tool since it aims to organize the dimensions of buildings, in order to reduce the variety of sizes in which the elements and components are produced, allowing its ready installation without the need of any modification. The structural masonry stands out in this direction since its design is guided by modular coordination, allowing the application of this concept and thereby to rationalize the subsystems of larger impact of the building: the partitions and the building structure. However, although this system contributes to the modular coordination, other construction components and elements must also have modular measures, being the element door an example. With that in mind, this research seeks to contribute to the dimensional standardization of "opening doors with one leaf" through the diagnosis of modular dimensions suitable for structural masonry designs. Initially, it was diagnosed the possible modular dimensions for the door space. The analyses resulted in the possible horizontal space before de door installation of widths with final 1 (61, 71, 81, cm) and 6 (66, 76, 86, cm). The vertical modular space is equal to 221 cm before any other construction element is added and 217 cm considering a regularization capping and floor tile over the slab (nominal). The width of wood door leaf is currently commercialized with dimensions ending with 0 (60, 70, 80, cm) and 2 (62, 72, 82, cm). These dimensions were diagnosed suitable to modular masonry design when combined with door post thickness of 2 and 2,5 cm respectively. However the 210 cm height, available in the market, proved to be inadequate. With this dimension a construction solution is need to fill the gap between the door and masonry, which is not wanted and becoming very undesirable today. The study leaded to the conclusion that a door leaf height of 212,5 cm would be ideal. Also, although it is possible wood-doors of 0 and 2 endings widths (current standard) changing the standards to width with endings dimensions of 3 (63, 73, 83, ... cm) and 8 (68, 78, 88, cm) would make possible to have the same width standard for door leafs of several materials (wood, metal). The metal doors of steel and aluminum are available in the market in several different. Although most of them are suitable for the modular dimensions the proposals are made here to standardize and reduce the number of different dimensions. The first one has lower impact, just recommends to eliminated some of the marketed dimensions standardizing to width endings with 1 (61, 71, 81, cm) and in height 211 cm. The other suggestion has higher impact, but allows the same dimensions for doors of different materials, thus having only one dimension standard for door leafs regardless of its material. / A construção civil é uma indústria muitas vezes vinculada a processos produtivos artesanais, refletindo em desperdício de recursos físicos e financeiros. A grande demanda por edificações leva a necessidade de industrializar elementos, componentes e tecnologias construtivas como alavanca ao desenvolvimento tecnológico e evolução do processo construtivo. Tendo em vista estes aspectos a coordenação modular se destaca como excelente ferramenta estratégica uma vez que objetiva organizar as dimensões das construções, de forma a reduzir a variedade de tamanhos nos quais os elementos e componentes são produzidos, permitindo seu uso sem modificações, cortes ou retoques. O sistema construtivo em alvenaria estrutural se destaca nesse sentido uma vez que é concebido através da coordenação modular, possibilitando fazer uso deste conceito e com isso racionalizar os subsistemas de maior impacto da edificação, a vedação e estrutura da edificação. No entanto, embora esse sistema contribua com a coordenação modular, os demais componentes e elementos construtivos que conformam a edificação, em sua maioria, não possuem medidas modulares, sendo o elemento porta um exemplo. Tendo isso em mente esta pesquisa busca contribuir com a padronização dimensional de portas de abrir com uma folha , através do diagnostico de dimensões modulares adequadas a projetos de alvenaria estrutural. Para tanto se diagnosticou os possíveis vãos modulares da alvenaria, apresentando na largura final 1 e 6 (nominal), e na altura 221 cm sem contrapiso e 217 cm com contrapiso e piso (nominal). No material madeira as larguras de folha de final 0 (zero) e 2 (dois), disponíveis atualmente no mercado, foram diagnosticadas adequadas a projetos de alvenaria estrutural quando combinadas respectivamente com batentes de 2 e 2,5 cm de espessura. Já a altura de 210 cm, disponível no mercado, se mostrou inadequada, apontando a necessidade de soluções para preencher o vão. Através do estudo diagnosticou-se como dimensões ideais de folhas de madeira, na largura final 3 (três) e 8 (oito), e 212,5 cm de altura (nominal). No caso das portas mistas, batente metálico envolvente e folha de porta de madeira, constatou-se como a melhor solução trabalhar com as dimensões de folha diagnosticadas ideais para portas de madeira, ao invés das dimensões disponíveis no mercado, possibilitando padronizar a dimensão do batente metálico assim como a folha da porta. As portas metálicas (aço e alumínio) se destacam por apresentarem dimensões disponíveis no mercado, largura e altura, adequadas a projetos de alvenaria estrutural. No entanto através do estudo diagnosticou-se duas soluções dimensionais mais adequadas, uma de menor impacto, padronizando somente as portas metálicas, sendo folhas de final 1 (um) na largura e 211 cm de altura, e outra de maior impacto buscando padronizar as dimensões de folha de porta metálica e de madeira, permitindo o intercambio destes materiais, portanto folhas de final 3 (três) e 8 (oito) com altura de 212,5 cm e batente padronizado em 1,5 cm (parte com rebaixo). Construção civil Alvenaria estrutural Coordenação modular Portas Modular Coordination Modular Doors Structural Masonry Door Masonry

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