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  • 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.
1

Contribuição às construções em terra comprimida e compactada e influências no conforto / Contribution to compressed and compacted earth buildings and influences on comfort.

Maia, Leonardo Ribeiro 04 March 2016 (has links)
Esta dissertação buscou analisar o espaço arquitetônico contemporâneo construído com as técnicas de Taipa de Pilão (terra compactada) e Blocos de Terra Comprimida (BTC) e sua influência no conforto dos ocupantes. A utilização da terra justifica-se na possibilidade do auxílio da melhoria da qualidade das edificações e desenvolvimento de sistemas construtivos econômicos e de alto desempenho, explorando suas qualidades e vantagens. Para isso, realizou-se a revisão bibliográfica sobre o material terra e sobre as técnicas de construção que o utilizam, além de apresentar o estado da arte (últimos 15 anos) dessas técnicas e sistemas construtivos, seus processos e avaliações. O trabalho analisou os fenômenos físicos referentes à transferência de calor e umidade e as questões subjetivas que envolvem o conforto nas diversas áreas onde o conceito esteja presente (arquitetura, filosofia, história, medicina, biologia, química e psicologia). Ao final, discutiu as soluções projetuais da arquitetura de terra contemporânea e concluiu que edificações construídas com terra podem proporcionar mais do que a neutralidade (\"não desconforto\") exigida pelas normas: proporciona aos ocupantes prazer, bem-estar, expressão de seu corpo e da cultura, além de expandir e evocar sentidos, emoções e sentimentos humanos e emocionar. / Earth and Compressed Earth Blocs and their influence on users\' comfort. The earth use is justified to improve the quality of buildings and development of economic and highperformance construction systems by exploring their qualities and advantages. To reach that, this work presents a literature review about the material \"earth\" and its building techniques. In addition, it presents the state-of-the-art of this techniques and buildings systems as well their process and evaluations. Also, the work analyses the physical phenomenon of heat and humidity transfer and the subjective issues involving comfort in diverse areas that the concept could be presented (architecture, philosophy, history, medicine, biology, chemistry and psychology). Finally, it discusses the design solutions of the contemporary earth architecture. It concludes that the earth-buildings can provide more than the neutrality (\"not discomfort\"), required by the regulations. These buildings provides pleasure, well-being, expression of body and represents culture of their occupants. It evokes human senses and feelings that thrills us.
2

Contribuição às construções em terra comprimida e compactada e influências no conforto / Contribution to compressed and compacted earth buildings and influences on comfort.

Leonardo Ribeiro Maia 04 March 2016 (has links)
Esta dissertação buscou analisar o espaço arquitetônico contemporâneo construído com as técnicas de Taipa de Pilão (terra compactada) e Blocos de Terra Comprimida (BTC) e sua influência no conforto dos ocupantes. A utilização da terra justifica-se na possibilidade do auxílio da melhoria da qualidade das edificações e desenvolvimento de sistemas construtivos econômicos e de alto desempenho, explorando suas qualidades e vantagens. Para isso, realizou-se a revisão bibliográfica sobre o material terra e sobre as técnicas de construção que o utilizam, além de apresentar o estado da arte (últimos 15 anos) dessas técnicas e sistemas construtivos, seus processos e avaliações. O trabalho analisou os fenômenos físicos referentes à transferência de calor e umidade e as questões subjetivas que envolvem o conforto nas diversas áreas onde o conceito esteja presente (arquitetura, filosofia, história, medicina, biologia, química e psicologia). Ao final, discutiu as soluções projetuais da arquitetura de terra contemporânea e concluiu que edificações construídas com terra podem proporcionar mais do que a neutralidade (\"não desconforto\") exigida pelas normas: proporciona aos ocupantes prazer, bem-estar, expressão de seu corpo e da cultura, além de expandir e evocar sentidos, emoções e sentimentos humanos e emocionar. / Earth and Compressed Earth Blocs and their influence on users\' comfort. The earth use is justified to improve the quality of buildings and development of economic and highperformance construction systems by exploring their qualities and advantages. To reach that, this work presents a literature review about the material \"earth\" and its building techniques. In addition, it presents the state-of-the-art of this techniques and buildings systems as well their process and evaluations. Also, the work analyses the physical phenomenon of heat and humidity transfer and the subjective issues involving comfort in diverse areas that the concept could be presented (architecture, philosophy, history, medicine, biology, chemistry and psychology). Finally, it discusses the design solutions of the contemporary earth architecture. It concludes that the earth-buildings can provide more than the neutrality (\"not discomfort\"), required by the regulations. These buildings provides pleasure, well-being, expression of body and represents culture of their occupants. It evokes human senses and feelings that thrills us.
3

Stabilised Rammed Earth For Walls : Materials, Compressive Strength And Elastic Properties

Kumar, Prasanna P 07 1900 (has links)
Rammed earth is a technique of forming in-situ structural wall elements using rigid formwork. Advantages of rammed earth walls include flexibility in plan form, scope for adjusting strength and wall thickness, variety of textural finishes, lower embodied carbon and energy, etc. There is a growing interest in the construction of rammed earth buildings in the recent past. Well focused comprehensive studies in understanding the structural performance of rammed earth structures are scanty. Clear-cut guidelines on selecting soil grading and soil characteristics, assessing strength of rammed earth walls, density strength relationships, limits on shrinkage, standardised testing procedures, behaviour of rammed earth walls under in-plane and out of plane loads, etc are the areas needing attention. The thesis attempts to address some of these aspects of cement stabilized rammed earth for structural walls. Brief history and developments in rammed earth construction with illustrations of rammed earth buildings are presented. A review of the literature on rammed earth has been provided under two categories: (a) Unstabilised or pure rammed earth and (b) stabilised rammed earth. Review of the existing codes of practice on rammed earth has also been included. Summary of the literature on rammed earth along with points requiring attention for further R&D are discussed. Objectives and scope of the thesis are listed. The thesis deals with an extensive experimentation on cement stabilised rammed earth (CSRE) specimens and walls. Four varieties of specimens (cylindrical, prisms, wallettes and full scale walls) were used in the experiments. A natural soil and its reconstituted variants were used in the experimental work. Details of the experimental programme, characteristics of raw materials used in the experimental investigations, methods of preparing different types of specimens and their testing procedures are discussed in detail. Influence of soil grading, cement content, moulding water content, density and delayed compaction on compaction characteristics and strength of cement stabilised soil mixes were examined. Five different soil gradings with clay content ranging between 9 and 31.6% and three cement contents (5%, 8% and 12%) were considered. Effect of delayed compaction (time lag) on compaction characteristics and compressive strength of cement stabilised soils was examined by monitoring the results up to 10 hours of time lag. Influence of moulding water content and density on compressive strength and water absorption of cement stabilised soils was examined considering for a range of densities and water contents. The results indicate that (a) there is a considerable difference between dry and wet compressive strength of CSRE prisms, and the strength decreases as the moisture content at the time of testing increases, (b) wet strength is less than that of dry strength and the ratio between wet to dry strength depends upon the clay fraction of soil mix and cement content, (c) saturated moisture content depends upon the cement content and the clay content of the soil mix, (d) optimum clay percentage yielding maximum compressive strength is about 16%, (e) compressive strength of compacted cement stabilised soil increases with increase in density irrespective of cement content and moulding moisture content, and the strength increases by 300% for 20% increase in density from 15.70 kN/m3, (f) compressive strength of rammed earth is one - third higher than that of rammed earth brick masonry and (g) density decreases with increase in time lag and there is 50% decrease in strength with 10 hour time lag. Stress-strain relationships and elastic properties of cement stabilised rammed earth are essential for the analysis of CSRE structural elements and understanding the structural behaviour of CSRE walls. Influence of soil composition, density, cement content and moisture on stress-strain relationships of CSRE was studied. Three different densities (15.7 – 19.62 kN/m3) and three cement percentages (5%, 8% and 12% by weight) were considered for CSRE. Stress-strain characteristics of CSRE and rammed earth brick masonry were compared. The results reveal that (a) in dry condition the post peak response shows considerable deformation (strain hardening type behaviour) beyond the peak stress and ultimate strain values at failure (dry state) are as high as 3.5%, which is unusual for brittle materials, (b) modulus for CSRE increases with increase in density as well as cement content and there is 1 to 3 times increase as the cement content changes from 5% to 12%. Similarly the modulus increases by 2.5 to 5 times as the dry density increases from 15.7 to 19.62 kN/m3 and (c) the modulus of CSRE and masonry in dry state are nearly equal, whereas in wet state masonry has 20% less modulus. Compressive strength and behavior of storey height CSRE walls subjected to concentric compression was studied. The results of the wall strength were compared with those of wallette and prism strengths. The wall strength decreases with increase in slenderness ratio. There is nearly 30% reduction in strength as the height to thickness ratio increases from 4.65 to 19.74. It was attempted to calculate the ultimate compressive strength of CSRE walls using the tangent modulus theory. At higher slenderness ratios, there is a close agreement between the experimental and predicted values. The storey height walls show lateral deflections as the load approaches failure. The walls did not show visible buckling and the shear failure patterns indicate material failure. The shear failures noticed in the storey height walls resemble the shear failures of short height wallette specimens. The thesis ends with a summary of the results with concluding remarks in the last chapter.

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