Global ETD Search

1	The effect of moisture content and composition on the compressive strength and rigidity of cob made from soil of the Breccia measures near Teignmouth, Devon Addison Greer, Matthew James January 1996 (has links) Earth has been used as a reliable building material for many thousands of years. Recently there has been a world wide renaissance in the use of earth as a building material due to its architectural versatility and environmental sustainability. However, in the United Kingdom it is regarded by the majority of building professionals as either obsolete or a novel historical material. The utilisation of earth as a modern building material and the repair of historic earth building structures is retarded by the uncertainty of the knowledge of the properties of the material. This thesis considers earth building materials as composite materials containing a cohesive, low compression modulus binder fraction, a high compression modulus aggregate fraction, and a fibre fraction. The compression properties of a building material without fibre content (cob matrix material) are described in terms of the interaction between the binder and aggregate fractions, and moisture and the binder fraction. The effect of the moisture content of the material upon the compression failure mechanisms is described. Values of compression modulus predicted by a rule of mixtures equation are compared to experimental results for this material. The following mechanisms are proposed to account for the apparent discrepancy between the predicted and experimental results: • the effect of pore size distribution and the proportions of binder and aggregate fractions upon strain magnification within the material • the effect of an efficiency factor, primarily dependent upon the proportion of binder and aggregate fractions, which determines the degree to which the potential modulus of the material is realised. Time Domain Reflectometry is employed for repeated, real time, non-destructive measurement of the moisture content of an external cob wall. The results of these measurements are analysed and discussed. This thesis proposes that consideration of cob as a composite material has developed a paradigm which will enhance the level of understanding of all earth building materials, enabling the manipulation and accurate prediction of their structural properties. This will be an important contribution to the realisation of the significant sustainable qualities of earth building materials by the current construction industry. - 720 Earth building
2	A Concise History of the Use of the Rammed Earth Building Technique Including Information on Methods of Preservation, Repair, and Maintenance Gramlich, Ashley 11 July 2013 (has links) Pisé de terre or rammed earth is a building technique that has existed for over ten thousand years. Although this technique was first documented for Western Civilization by the Roman Pliny the Elder circa 79 AD, evidence of its use prior to his time is found in China, Europe, and elsewhere. Rammed earth achieved notoriety in the United States during three distinct periods in its history: the Jeffersonian era, the Great Depression, and the Back-to-Nature Movement of the 1970s. In the United States earth buildings are uncommon and usually deemed marginal or fringe. This is true even though at times the U.S. government has been a proponent of alternative building techniques, especially rammed earth. Intended for those interested in material culture, this thesis provides a brief history of rammed earth, articulates its importance to the building record of the United States, and describes methods for its preservation, repair, and maintenance. Cointereaux Historic preservation Nouveau pisé Pisé de terre Rammed earth U.S. earth building
3	Exploring Earth-Building Technology for Liberia. Mayon, Isaac Dompo 19 August 2009 (has links) (PDF) This paper discusses earth as a building material and the extent to which earth building technology has evolved over the years. In particular it addresses the adobe, compressed and rammed earth techniques of earth building as suitable techniques for Liberia consumption. In addition, the paper investigates the suitability of the Latosols soils of Liberia for earth building construction purposes using standardized earth building principles and requirements. A local Johnson City, Tennessee, earth sample found to have the same physical characteristics of the Latosols of Liberia was used to simulate Liberia soils to produce specimen blocks at different configurations of moisture content and stabilizers (Bentonite and cement). Following 14 days of cure, the blocks were tested for compressive strength. It was found that blocks produced from the natural soil with no stabilizer added were structurally adequate for building construction purposes. A cost-benefit analysis involving blocks with and without stabilizer (cement) added was also performed. Liberia earth construction earth-building technology rammed earth compressed earth Engineering Materials Science and Engineering Structural Materials
4	Developing sustainable and environmentally friendly building materials in rammed earth construction Okoronkwo, Chijioke David January 2015 (has links) Building rammed earth structures provides a sustainable alternative to concrete. As a building material, rammed earth exhibits very varied physical and material properties depending on the proportion of constituting soil types. When very sandy soil is used in rammed earth production, the properties are different from when a clayey soil is used. This variability can be seen as a very great advantage in the use of rammed earth as a building material. Builders are able to adjust specific properties by changing mix proportions to obtain a desirable balance in the characteristics of the resulting rammed earth structure. This research work looks at selected mechanical and physical properties of different mixes of rammed earth. It describes typical range of values in density, thermal conductivity, ultrasonic pulse velocity, water ingress and compressive strength. It examines how these factors interrelate in the same soil mixes. Samples were prepared by blending various soil types in specific proportions to ensure that each definition of soil grade is as specific as possible. Unstabilised rammed earth was tested as was cement stabilised rammed earth. Rammed earth was tested at various levels of stabilisation and it was discovered that higher rates of stabilisation was not always beneficial to every material property. The research also looked into the potential disposal of waste materials in rammed earth. As rammed earth is a monolithic material that largely remains undisturbed throughout its life span, it was suggested that waste materials could be stored in an inert form inside of rammed earth rather than dumping it in otherwise agricultural landmass. Pulverised Fuel Ash and Palm Kernel Shells were identified as wastes to be disposed in rammed earth. Pulverised Fuel Ash, a by-product of industrial furnace is found in abundance in developed countries that burn carbonaceous materials in power plants. Disposals have been seen as a problem as only a small proportion of high loss on ignition (LOI) Pulverised Fuel Ash has found application. Palm Kernel Shell is a by-product of the oil palm industry and is currently a menace in many developing countries that need to dispose large quantities of the shell in landfills. At an early stage of the research, experimental trial runs quickly showed that these supposedly waste materials had a positive effect on some of the material properties of the rammed earth walls they were made into. This research effort evolved to look into exploiting these materials to improve the physical and material property of rammed earth and to suggest their effect on stabilised and unstabilised rammed earth. The extent to which these materials could be useful and the level at which diminishing returns set in was also investigated. It was discovered that soil mixes that would otherwise not be considered suitable for use in rammed earth wall production can now be utilised as their characteristics can be improved on simply by adding Pulverised Fuel Ash or Palm Kernel shell in the right proportion. Incorporating Pulverised Fuel Ash in rammed earth resulted in increased compressive strength. Palm Kernel shell improved thermal properties without compromising compressive strength. 693
5	Réhabiliter le bâti ancien et les cultures constructives : engagements, épreuves et attachements autour de la réhabilitation du bâti ancien en pisé en Isère / Building cultures and ancient buildings retrofitting : engagements, trials and attachments around rammed earth building retrofitting in Isère, France Genis, Léa 24 September 2018 (has links) Le bâti ancien est aujourd’hui confronté à des enjeux normatifs, environnementaux et patrimoniaux qui favorisent sa réhabilitation et engagent une multiplicité d’acteurs dans cette activité. Ces engagements mettent en débat les savoirs, les mondes professionnels et les attachements que ces acteurs tissent autour des espaces édifiés. La thèse explore ces dynamiques autour du cas particulier du bâti ancien en pisé (bâtiments construits en terre crue damée dans des coffrages) dans le département de l’Isère. L’objectif de ce travail est de comprendre et de décrire comment et par qui ce bâti est mis en projet et réhabilité, dans un double sens d’amélioration physique et de revalorisation d’un objet aux significations multiples. Nous faisons l’hypothèse que les projets de réhabilitation, par les multiples formes d’engagement qu’ils construisent, participent à détacher l’expérience de ce bâti d’une expérience ordinaire. Ces projets mettent à l’épreuve les attachements que leurs porteurs développent autour du bâti existant et de la matière terre qui le constitue autant que les savoirs et les pratiques constructives qui s’y appliquent. Ces épreuves participent à l’émergence de collectifs qui tissent un maillage politique au sein duquel se composent des espaces de dialogue et d’appropriation des usages, de la pratique et du devenir du bâti existant.Pour explorer cette hypothèse, la recherche s’inscrit dans une perspective interdisciplinaire qui articule ressources théoriques et méthodes développées en architecture, en ethnologie et en sociologie. Elle développe une anthropologie pragmatique des cultures constructives qui compose une problématisation commune entre ces disciplines autour des questions soulevées par la réhabilitation du bâti ancien. L’exploration de ces questions se base sur un travail d’enquête qualitative multi-située. Il décrit les mondes de la réhabilitation en action, en suivant des parcours de projet portés par plusieurs catégories d’acteurs (habitants, professionnels, institutions). La thèse revient d’abord sur les différentes formes d’engagement qui participent à mettre le bâti ancien en projet, de l’intervention sur un bâtiment spécifique à sa mise en valeur de manière générale. Ces expériences de réhabilitation portent l’attention sur différentes qualités du bâti et contribuent à le faire sortir de l’ordinaire. Le bâti ancien en pisé est ainsi engagé – et engage lui-même – dans de multiples réalités. À la fois maison, lieu de vie, lieu de travail, patrimoine local ou architecture de terre, il fait agir, réagir et rentrer en relation les acteurs qui s’y intéressent. La deuxième partie de l’analyse décrit comment la difficulté d’appliquer des protocoles de réhabilitation entraine les porteurs de projet à s’engager dans des épreuves et à chercher des prises leurs permettant de mener à bien leurs projets. Ces épreuves entrainent les acteurs qui s’y investissent à ajuster leurs relations entre eux et avec le bâti au fur et à mesure du processus de projet. À mesure qu’ils s’approprient les savoirs de la réhabilitation, ils développent différentes formes d’attachement autour du bâti. Les projets de réhabilitation contribuent alors à l’émergence de collectifs plus ou moins pérennes qui se réapproprient les modalités d’intervention sur le bâti et les décisions qui le concernent. La thèse s’attache finalement à mieux comprendre les dimensions plurielles (matérielle, constructive, architecturale et interactionnelle) des cultures constructives du pisé et de sa réhabilitation et propose les éléments d’un dialogue à poursuivre avec les acteurs de terrain autour de l’intérêt et des conditions permettant de faire tenir un espace politique autour des usages et du devenir du bâti existant. / Ancient buildings face today normative, environmental and patrimonial issues which foster their renovation and engage a great diversity of actors. This multiplicity initiates a debate around knowledge, professional worlds and attachments which are woven around existing buildings. This thesis delves into these dynamics focusing on the case of ancient rammed earth building (raw earth compressed into an external formwork) in the French department of Isere, France. It aims at describing how and by whom rammed earth buildings are involved in retrofitting projects, considering both their physical and representational improvement. We make the hypothesis that retrofitting projects, through the multiple ways of engagement they imply, help to free the experience of this buildings from an ordinary experience. Indeed, they put on trial the attachments developed by the actors around existing buildings and earthen material as much as the building knowledge and practices. These trials bring out collectives that weave a political meshwork. At different scales, this meshwork composes spaces for dialogue and appropriation of uses, practices and futures of existing buildings.The exploration of this hypothesis follows an interdisciplinary perspective that connect theoretical resources and methods developed in architecture, ethnology and sociology. It develops a pragmatic anthropology of building cultures composing a common problematic for these disciplines to discuss ancient building retrofitting. The investigation is based on multi-sited qualitative ethnography. Following projects paths carried by different actors (inhabitants, professionals, institutions), it describes the retrofitting worlds in action. First, the thesis describes the various forms of engagement in retrofitting projects, from the intervention on a specific building to its evaluation as heritage. These experience draw attention on different qualities of the buildings and bring them out of their ordinary status. Ancient rammed earth buildings are therefore engaged – and engage themselves – in multiple realities: house, place of life, workplace, local heritage, earthen architecture. It makes the actors act, react and interact. Then, the analysis shows how the difficulty of applying strict rehabilitation protocols leads the actors to engage in trials and to develop holds to carry out their projects. As the project progresses, these trials lead them to adjust their relations with each other and with existing buildings. As they grasp knowledge about retrofitting, they develop different attachments. Therefore, retrofitting projects contribute to the emergence of collectives, more or less durable. At their own scale, these collectives reclaim the methods of interventions on buildings and the decision that concern them. The thesis eventually aims to better understand the plural dimensions (material, constructive, architectural and interactional) of rammed earth building retrofitting and propose components for a dialogue to carry on with local stakeholders around the interests and conditions that would make possible to hold a political space around the uses and futures of existing buildings. Bâti ancien en pisé Réhabilitation Cultures constructives Collectifs Communautés de pratiques Politiques de l'architecture Rammed earth building Retrofitting Building cultures Collectives Communities of practice Politics of architecture 700 720
6	Indigenous Materials in Modern Buildings : for low energy houses in West Africa Persson, Staffan January 2014 (has links) Burkina Faso is one of the poorest countries in the world. This landlocked country in the west has an extremely warm climate. Temperatures over 45°C are not uncommon and there is an almost constant need to keep the buildings cool to maintain a temperate indoor climate. Air-conditioning is an option to maintain the temperature but it overloads the power grid and only a few people can afford it. This thesis examines, through laboratory experiments, the thermal and mechanical properties that can be obtained by vibrating clayey soil and mixing it with water, lime or cement and organic fiber (Bissap). The report also examines different building projects utilizing local materials, both of a traditional and more modern nature.Energy required to produce building elements of soil is negligible compared to that of concrete and steel. Soil can be used in constructing houses but it is sensitive to water.The insulation is inadequate for a passive house so an extra layer of insulating material is required.The experiments performed during this project were inconclusive so it is impossible, from the results in this paper, to say if vibration is a good method for forming a building material of soil. The high water content needed, is however a major problem, shrinkage was about 20% and cracks were hard to avoid. Further investigations into the subject is necessary. / Burkina Faso är ett av de fattigaste länderna i världen. Som ett kustlöst land beläget i Västafrika har det ett extremt varmt klimat. Temperaturer över 45°C är inte ovanligt och det är ett nästan konstant behov av att kyla byggnader för att behålla ett behagligt inneklimat. Idag byggs det två typer av byggnader i Burkina Faso; de traditionella lerhusen och de mer moderna husen med väggar av cementstenar och plåttak. Cementväggarna har ett U-värde på 3W/m2K och tillsammans med plåttaket så bildar det ett undermåligt klimatskal utan möjligheter att skydda mot hettan. Det leder idag till endera ett obehagligt varmt inneklimat eller en hög och kostsam energianvändning av luftkonditionering. Överbelastningen på elnätet på grund av luftkonditionering är påtaglig under den varmaste säsongen med frekventa strömavbrott till följd. Denna rapport undersöker via laboratorieexperiment vilka termiska och mekaniska egenskaper man kan erhålla genom att vibrera lerjord och blanda med vatten, organiska fibrer samt kalk och/eller cement. Litteraturstudier och fältbesök i Burkina Faso har gjorts för att undersöka och förstå vilka svårigheter som kan uppkomma genom att bygga med lera. Rapporten tar även upp konkreta exempel på byggnader i Burkina Faso gjorda av lokala material, historiska såväl som moderna projekt. Lerjord behöver extremt lite energitillförsel för att bilda ett byggmaterial och den negativa miljöpåverkan är försumbar jämfört med betong och stål. Det kan användas för att bygga energisnåla hus men det är känsligt mot vatten, vilket måste beaktas noga under projekteringen. Värmeledningsförmågan är för hög för att vara tillräcklig som isolering för att erhålla ett inneklimat enligt dagens standard, utan tillförsel av energi, så någon form av extra isolering krävs. Experimenten som gjordes gav inte tillräckligt exakta resultat för att visa om vibrering är en bra metod att göra byggmaterial eller inte. Den höga vattenhalten som krävs för vibrering är ett stort problem. Krympningen var ungefär 20 % och sprickor var svåra att undvika. Vidare studier på området rekommenderas. Natural building Clay building Earth Building Ecological building Low energy building Passive house West Africa Burkina Faso Ouagadougou Naturligt byggande lerbygge ekologiskt byggande lågenergihus Västafrika Burkina Faso Ouagadougou
7	Centro de Visitantes para la Reserva Salinas y Aguada Blanca / Visitor Center for the Salinas y Aguada Blanca Reserve Rivera Rodríguez, Mariana Victoria 05 November 2019 (has links) Nuestro País, posee grandes riquezas en su territorio, Áreas naturales, restos arqueológicos, entre otros que lo dotan de un gran potencial turístico. Sin embargo, muchos de estos son desconocidos y considerados como lugares de paso. Esta es la situación en la que se encuentra La Reserva Natural Salinas y Aguada Blanca, ubicada entre la ciudad de Arequipa y el Cañón del Colca. Un bello lugar con atractivos paisajísticos, restos de pintura rupestres, y hogar de vegetación y fauna en peligro de extinción. La reserva es transitada por miles de turistas, por lo cual, la propuesta consiste en consolidar el Poblado Pampa Cañahuas, punto medio en la ruta y lugar en el cual hoy en día hay una parada de descanso en la que los turistas pueden consumir algún mate o comida y comprar artesanías elaboradas por los pobladores. El planteamiento del poblado es entorno a la plaza principal y unas plazuelas denominadas “Eco-Patios” con los cuales se busca dotar al poblado de un desarrollo autosostenible y bioclimático. Así mismo el elemento principal del poblado es el Museo, lugar que servirá para dar a conocer la Reserva. La propuesta además de la exposición interna incluye espacios que se relacionan directamente con el paisaje, permitiendo que a través de visuales el visitante se pueda relacionar con su entorno. El Museo y poblado, tienen la finalidad de dar a conocer a la Reserva, no solo sus atractivos turísticos sino también a los pobladores, un Tambo moderno. / Our country has great wealth in its territory, natural areas, archaeological remains, among others that endow it with great tourist potential. However, many of these are unknown and considered as places of passage. This is the actual situation of the Salinas and Aguada Blanca Nature Reserve, located between the city of Arequipa and the Colca Canyon. It’s a beautiful place with attractive landscapes, remains of cave paintings, and home of vegetation and fauna in danger of extinction. The reserve is traveled by thousands of tourists, so the approach is to consolidate the Pampa Cañahuas Village, a midpoint on the route and place where today there is a rest stop where tourists can consume some typical beverage or food and buy handicrafts made by the villagers. The new design of the town is developed around the main square and some minor squares called "Eco-Patios" with which it seeks to provide the town with a self-sustainable and bioclimatic development. Likewise, the main element of the town is the Museum, a place that will serve to publicize the Reserve. In addition to the internal exhibition, the proposal includes spaces that relate directly to the landscape, allowing visitors to interact with their surroundings through views. The Museum and town, have the purpose of making known the Reserve, not only its tourist attractions but also the inhabitants, a modern “Tambo” / Tesis Museo Poblado andino Reserva natural Turismo Adobe Arequipa Cañón del Colca Museum Andean town Natural reserve Tourism Earth building Arequipa Colca Canyon Arquitectura
8	Evaluation of natural materials in Sustainable Buildings : A potential solution to the European 2050 long-term strategy de las Heras Reverte, Víctor January 2021 (has links) Today, buildings consume 40% of total energy demand in the EU and are responsible for 36% of GHG emissions. For this reason, and due to the delicate situation of climate change that planet Earth is experiencing, solutions are being sought to make the building sector more sustainable. In the current project, the use of natural materials has been chosen as a solution in line with the EU 2050 long-term strategy. This research broadens the knowledge on sustainable building with natural materials as an alternative to conventional construction. To this end, first, an extensive state of the art has been carried out to gather information and identify research gaps on natural building materials and energy efficiency, proving the suitability of natural construction materials. Special emphasis has been put on straw bale construction and rammed earth construction, which have been studied individually. In addition, geometrically identical building models of both building techniques have been developed and simulated in Stockholm and Valencia in order to see how they would perform in different climates. Total energy demand for the straw-bale building of 140.22 kWh/(m2·year) in the case of Stockholm and 37.05 kWh/(m2·year) in the case of Valencia has been obtained. For the rammed earth building, a total demand of 301.82 kWh/(m2·year) has been obtained in Stockholm and 78.66 kWh/(m2·year) in Valencia. Once passive measures are applied in the different models, a reduction in demand for the straw bale building of 77.8% and 36.3% has been achieved for Stockholm and Valencia, respectively. In the rammed earth building, in contrast, the demand has been reduced by 86.3% in Stockholm and 73.9% in Valencia. Heat recovery ventilation and high insulation level have been identified as imperative needs in Stockholm, in contrast to Valencia. Other improvement strategies such as windows substitution, air permeability improvement, or natural ventilation for cooling have been implemented. Apart from that, better performance of the straw-bale buildings has been identified for both climates. Additionally, focusing on thermal inertia, its influence has been identified as not completely significant in terms of annual demand in the simulated climates. Straw-bale building Rammed earth building Sustainable construction Natural Building Materials Energy performance analysis Energy performance optimization Engineering and Technology Teknik och teknologier

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