Global ETD Search

191	Emprego de espécies tropicais alternativas na produção de elementos estruturais de madeira laminada colada / Employment of alternative tropical timber species in glued laminated timber structural elements production André Luiz Zangiácomo 17 March 2003 (has links) Apesar da versatilidade da madeira, seu emprego fica, às vezes, dificultado por não serem totalmente conhecidas as suas propriedades e seu desempenho em diferentes condições de serviço. Neste trabalho, procura-se contribuir para um melhor aproveitamento das espécies tropicais alternativas, em especial no emprego para produção de elementos estruturais de madeira laminada colada, uma vez que o Brasil possui grande potencial dessas espécies, mas ainda sub-utilizadas. Neste contexto, realiza-se a determinação das propriedades físicas, de resistência e de rigidez de algumas espécies e determinam-se também as rigidezes de elementos estruturais obtidos da espécie cujos corpos-de-prova apresentam os melhores resultados. Ensaiam-se vigas montadas com dois tipos de adesivos, duas intensidades de pressão e duas distribuições de lâminas. Adota-se a metodologia experimental recomendada no ANEXO B da NBR 7190:1997 - Projeto de Estruturas de Madeira, da Associação Brasileira de Normas Técnicas (ABNT). Analisam-se os resultados obtidos a partir de conceitos estatísticos. A espécie Cedrinho (Erisma sp) apresentou as melhores respostas, das quais pode-se concluir que os adesivos Cascophen e à base de mamona não influenciaram as propriedades de rigidez das vigas, o mesmo acontecendo para as duas intensidades de pressão, 0,8 MPa e 1,2 MPa. As propriedades de rigidez das vigas de MLC podem ser influenciadas pela distribuição das lâminas ao longo da altura da seção transversal / Despite the wood versatility, its application is, sometimes, difficult because of its properties and performances under differents work conditions are not completely known. The present work seeks to contribute for a better utilization of the alternative tropical wood species, especially in the employment to the production of structural elements of glued laminated timber, once that Brazil has a great potential of these species which are under applicated. In this context, the determination of the physical properties, the strength and the stiffness of some alternative tropical species are realized, and the stiffness of structural elements made of the specie which presented the best results in specimens tests are determinated. Beams are tested with two adhesives classes, two pressure intensities and two ways of lamination. Experimental methods suggested in ANEXO B, NBR 7190:1997 Timber Structures Design (Brazilian Technical Codes Association) were used. The specie Cedrinho (Erisma sp) presents the best results, and conclusions are made: Cascophen and castor oil adhesives did not influence the beams stiffness properties; the same thing happens for the two pressure intensities, 0,8 MPa and 1,2 MPa. The glulam beams stiffness properties can be influenced by the ways of lamination estruturas de madeira madeira madeira laminada colada glued laminated timber timber structures wood
192	Jointed timber column with glue or nails. / Träpelare sammansatt med lim- eller spikförband. Aslan, Jiyan, Asp, Marcus January 2016 (has links) På en byggarbetsplats kan man ibland behöva sammansätta två eller flera träkomponenter till en träkomponent med rätt dimension. Det sker oftast genom spikning men det finns också möjlighet att limma ihop träkomponenter ute på en byggarbetsplats. Limning är inte alls lika förekommande på grund av de krav som ställs på limning av bärande konstruktioner och kringliggande miljö varför limning i princip endast sker i fabriksmiljö. I denna studie utförs en jämförelse mellan sammansättning av träreglar till en träpelare med avseende på hållfasthet och ekonomi. Detta jämförs dessutom med att köpa in pelare av trä med rätt dimension. I studien behandlas dessutom möjligheten att limma ute på en byggarbetsplats och hur limningen ska utföras på ett korrekt sätt. Studien har genomförts med hjälp av de standarder som finns för beräkningsregler för dimensionering av bärverk, eurokoder. Kostnadsberäkningar har genomförts för material och utförandearbete med hjälp av marknadspriser för material och enkla beräkningar för utförandearbete. En intervju har genomförts för att besvara möjligheten att limma ute på en byggarbetsplats med lim för bärande konstruktioner. I studien har beräkningar utförts för två samt tre sammansatta träreglar och jämförts med enkla pelare i liknande dimensioner. Spikad pelare har en avsevärt lägre bärförmåga än limmad pelare som är utförd korrekt. Spikad pelare har beräknats med olika avstånd mellan spikar och limmad pelare är beräknad med två olika lim. Kostnaderna för material och utförandearbete är ganska generella men är bara en liten del av de totala kostnaderna. Vart byggarbetsplatsen är placerad, vilka verktyg och material som finns på plats och vilka förutsättningar för att utföra limningen korrekt är faktorer som är avgörande för den totala kostnaden. Ett limförband är känslig och viktigast är att applicera rätt mängd och jämnt utbrett över träytorna. Vad som dessutom ska tas till hänsyn är kringliggande miljö såsom smuts, damm, temperatur och fuktighet. För att uppfylla dessa krav ute på en byggarbetsplats måste en fabriksmiljö skapas i form av väderskydd, tält, arbetsbod eller liknande. Träförband Spikförband limförband Träpelare Eurokod 5 Timber joints Nailed joints Glued joints Timber columns Eurocode 5
193	From coast to mountain Ingridsson, Björn January 2014 (has links) In a city with fast growth and development, this project aims to embody the resources of its origin and nurturing vein, Umeälv, and project its movements into the future. Through the tools of an architecture that promotes and envisions timber constructions this project searches for cues methods and composition of the traditional timber buildings in the region in conjunction of an age of prefabrication. / I en stad med snabb tillväxt och utveckling, syftar det här projektet till att förkroppsliga resurserna kring dess ursprung och näringsådra, Umeälven, samt projicera dess möjligheter in i framtiden. Genom verktyg för en arkitektur som främjar träkonstruktioner söker detta projekt efter ledtrådar metoder och sammansättning av de traditionella trähusen i regionen i samband med en tid av prefabricering. Timber architecture fisheries prefab timber vernacular Norrländsk västerbotten umeälv från kust till fjäll tourism Architecture Arkitektur
194	Stavební průzkum a hodnocení stavu konstrukce / Building survey and evaluating the state of construction Kolláriková, Simona January 2021 (has links) The diploma thesis deals with building survey of the New synagogue in Velké Meziříčí. It is focused on diagnostics of timber structures using non-destructive and semi-destructive testing methods, such as visual inspection, moisture content measurement, penetration depth of a steel pin measurement and endoscopy. The aim of the thesis is to evaluate the condition of the timber structures according to the results of the building survey.
195	Forest Resources Utilization in Korean-Chinese Ethnic Minority Villages, from the Perspective of Landscape Conservation / 景観保全の視点から見た中国朝鮮族村落における森林資源の利用状況 Fan, Lei 23 March 2016 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第19783号 / 農博第2179号 / 新制\|\|農\|\|1041(附属図書館) / 学位論文\|\|H28\|\|N4999(農学部図書室) / 32819 / 京都大学大学院農学研究科森林科学専攻 / (主査)教授柴田昌三, 教授神﨑護, 教授井鷺裕司 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM landscape conservaton Korean-Chinese ethnic minority traditional wooden house timber resources non-timber forest products 610
196	Mechanical Properties of Hybrid Softwood and Hardwood Cross-Laminated Timbers Satir, Esra 07 June 2023 (has links) Cross Laminated Timber (CLT) is an engineered wood product consisting of an odd number (three to seven) of lumber layers, which are glued in an orientation of each layer perpendicular to other. After its introduction, CLT has been widely adopted in Europe since 1990s and has quickly become popular in the US in the last decade as a sustainable and cost-effective alternative to traditional building materials such as concrete and steel. The first version of PRG-320 was published in 2012 for the US and Canada to help designers and builders understand the properties of CLT and use it safely. The current version of PRG-320 only allows the use of softwood species for commercial production of cross-laminated timber (CLT) in the US. However, recent studies have investigated the possibility of using hardwood species for CLT and have shown promising results. In parallel to this, the next version of PRG-320 is being revised to include hardwood species. The inclusion of hardwood species is an effort to increase the value of underutilized wood species in the United States. This study presents the results from testing of three-layer and five-layer CLTs manufactured using yellow-poplar (Liriodendron tulipifera) as hardwood and southern pine (Pinus spp.) as softwood in different layers, defined as hybrid CLT. The purpose of this project was to compare the bending and shear properties in the major axis direction of hybrid CLT panels obtained from five-point, four-point, and three-point bending tests with the current ANSI/APA PRG-320 values, and also to evaluate their resistance to shear by compression loading and delamination according to ANSI A190.1 and AITC T110 standards, respectively. The bending strength and bending stiffness, except for some individual groups, as well as the shear strength and shear stiffness values exceeded the Grade V3 from PRG-320. However, the wood failure in resistance to shear by compression loading and face delamination in resistance to delamination were lower than the required values in the standards. The test results demonstrated that CLT groups consisting of yellow-poplar has strength and stiffness properties comparable to those consisting of southern pine. This suggests that yellow-poplar could be a promising alternative species to softwood in the production of CLTs. / Master of Science / Cross Laminated Timber (CLT) is a wood composite material made of lumbers that are oriented perpendicular to each other and glued together. CLT has quickly gained popularity in Europe since its introduction in the early 1990s and has become an attractive material in the United States in the last decade due to its sustainability and cost-effectiveness compared to traditional building materials. As a standardization effort, the first standard for CLT, PRG-320, was published for both the US and Canada as a guide for designers and builders to understand the properties of CLT and has allowed only softwood for the commercial production of CLT in the US since its initial version. The promising results of research on the use of hardwoods in CLT production have enabled efforts to include hardwood species in the next version of the PRG-320. This study presents the results from testing of three-layer and five-layer CLTs manufactured using yellow-poplar as hardwood and southern pine as softwood in different layers, defined as hybrid CLT. The purpose of this project was to compare the bending and shear properties in the major axis direction of hybrid CLT beams obtained from five-point, four-point, and three-point bending tests with current industry guidelines, and also to evaluate their resistance to shear by compression loading and delamination. The test results indicated that yellow-poplar possesses similar strength and stiffness properties to southern pine, indicating that it has potential to be used as an alternative to softwood species in CLT production. Cross-Laminated Timber Mass Timber Hybrid CLT Southern pine Yellow-poplar
197	A Study of the Viability of Cross Laminated Timber for Residential Construction Smyth, Max January 2018 (has links) This report presents an overview into cross laminated timber (CLT) as a construction material and how it compares to traditional methods of construction. CLT is also examined in the context of a move to off-site manufacturing (OSM) and a greater emphasis on sustainability in the construction sector. In this context it is found to perform well with mass timber products such as CLT being the only carbon negative building materials capable of building mid and high-rise buildings. The barriers and opportunities for CLT are explored looking at literature, industry reports and case studies. The main barriers to wider use of CLT still come from uncertainties around the material. Although they have been proven to not be a problem, worries over issues such as how it performs during fires and the lifetime of buildings persist. A lack of standardisation may be the primary cause for this as a range of products and specifications across different manufactures and countries creates confusion and means that each building needs to be individually specified. The opportunities identified for CLT include its carbon saving properties which could benefit governments wanting to reach their carbon reduction targets. In addition, the ability to use CLT on a wider range of sites such as unstable brownfield land and over service tunnels lends to its strength in aiding with urban densification. In terms of costs, these are found to be comparable to those of traditional construction methods with high material costs being offset by reduced foundations and construction time. CLT buildings do, however, face a premium in insurance costs. Transport costs, resulting from a concentrated production base in central Europe, also add a considerable amount to the overall cost of the finished product. This in turn encourages domestic production in countries outside of Europe. The possibilities for CLT in the UK residential construction market are investigated with a focus on mid-rise and high-rise flat construction as that is what the economics and material properties of CLT most lend itself to. Although CLT currently has a low market share of less than 0.1% of homes in this sector there is the potential for this to increase to 20-60% over time. The lower range of this estimate is not predicted to be reached before 2035 and this is also dependant on rising CLT production levels. The volume of timber that is needed to manufacture enough CLT to reach these increased construction volumes can be sourced sustainably from existing forests production in Europe and North America. In addition, the UK has enough excess timber harvesting capacity to provide for the entirety of CLT buildings in the UK, however, large scale domestic CLT production is required to make this a reality. CLT cross laminated timber timber building residential construction sustainability environment Building Technologies Husbyggnad
198	Industrial Requirements for Cross-Laminated Timber Manufacturing Torneport, Matilda January 2021 (has links) Wood is a valuable sustainable material that meets the requirements for structural application. Cross-laminated timber (CLT) is a wood-based product that is mainly used in the building industry. Due to the rapid global market increase, a number of new CLT plants are emerging worldwide and thereby a need for standardisation is more than ever. There is no existing harmonised standard for CLT and it means a diversity between manufacturers, CLT products and its layup, which may in turn affects the properties of available CLT in the market. Therefore, this study was performed through literature study and internet-based interviews from five manufacturer in Sweden and Central Europe, to provide more information regarding the industrial requirements for CLT production. Three specific objectives of this study were: (1) wood and adhesive types in CLT production, (2) wood strength classes for CLT production, (3) important requirements for CLT producers and existing standards. Literature review and interviews showed that spruce (Picea abies L. Karst.) in combination with polyurethane (PUR) adhesive is the most commonly used materials in Europe for CLT production, which are approved by EN 16351 (2021). Other wood species, e.g., pine, poplar and birch can be used or are already used in a minor extent. Strength classes for lamellas in CLT are often C24, but timbers with lower strength grades are possible. Some manufacturer use combinations of different strength graded timber and in this small scale study different strength graded timber was in generally the biggest diversity between manufactures. Only a few material properties such as modulus of elasticity, modulus of rupture, compression and shear strength are listed in EN 16351 (2021) and EN 338 (2016), as the factors for quality measurements of the CLT products. This study, however, showed that the critical material properties for the most interviewed CLT producers are merely modulus of elasticity and rarely modulus of rupture. Cross-laminated timber CLT industry Wood species Adhesive Strength class Timber grades Wood Science Trävetenskap
199	A Survey of Conservation Easement Restrictions on Private Forest Land to Determine their Effects on Forest Management and Timber Supply Huff, Jeffrey Scott 25 May 2004 (has links) Conservation easements are increasingly becoming a popular land use control for landowners, government agencies and non-profit conservation organizations. These legal documents restrict a landowner's development rights and constrain other property uses. The landowner (grantor) voluntarily places an easement on his or her property, while the government agency or qualified conservation organization (grantee) holds it in perpetuity. While the Land Trust Alliance's (LTA) most recent estimate of easement-protected land amounts to nearly 2.6 million acres in 2000, an estimate of forestland protected is nonexistent. Additionally, no empirical studies address forest management on current easements nationwide, although a few studies address forestry at the state- or regional-level. As a result, this survey was designed to address three goals by sampling 1,527 conservation organizations and 63 state government agencies that may hold conservation easements. The first goal estimates total forestland protected. The second goal determines forestry restrictions commonly found in current easements. The third goal ascertains the impact of easements on forest management and timber supply. Survey results show that over 536 conservation organizations and 20 state agencies hold over 16,025 conservation easements on 4.9 million acres of all land types. Of these totals, a minimum of 3,598 easements protect over 2.5 million forestland acres. Forest management restrictions tend to vary based on the protected property's forest resources. The desires of the grantee holding the easement also influence the type and level of forestry restrictions. To date, conservation easement restrictions do not appear to impact timber supply nationally, although local or regional timber supply may be impacted in the future, especially in the Northeast. Several conclusions offer technical insights on forestland protection by conservation easements. First, grantees should complete a baseline forest inventory prior to placing an easement on a forested property. This inventory provides a basis for drafting effective easement provisions and permits future monitoring. Second, grantees should encourage professionally-written forest management plans on every working forest easement. Third, all conservation organizations need to work cooperatively with government agencies in locating potential conservation lands. GIS/GPS technology helps demonstrate the spatial relationship of conservation easements to other government-protected lands, promoting efficient location of properties that augment other protected lands. / Master of Science timber supply timber harvesting conservation easement forestland protection easement restrictions forest management
200	Case Studies in Value Improvement in Hardwood Timber Harvesting Operations in the southern Appalachians Haynes, Hylton John Gordon 03 September 2002 (has links) Three independent case studies focused on harvesting operation value improvement: (1) A productivity study was carried out on a new cable logging operation near Pikeville, Kentucky to document the effect of professional training on production efficiency. The crew received one full week of professional training. Prior to the professional training the productivity of the operation was established at 834 cubic feet per productive machine hour at an average piece size of 54 cubic feet. Two weeks after the training a productivity increase of 218 cubic feet per productive machine hour was established. (2) A USDA Forest Service stewardship contracting pilot project took place at Burns' Creek, Virginia. Productivity and machine costs for the cable-logging 'swing landing' operation were determined. Stream habitat improvement was achieved through the placement of limestone in the headwaters. The yarder placed 6.21 tons of lime per productive machine hour into the creek at a cost of $53 per ton. Instead of a traditional stumpage sale, timber was merchandized by the Forest Service and stored on the landing for a roadside log sale. Benefits and opportunities for a roadside log sale were identified. Consensus from the consumers at the log-sale was that the potential value of the timber was realized. (3) The third case study involved the analysis of the value recovered through log-making techniques (bucking) for five logging crews working in Virginia and West Virginia. An average value loss of 22 percent was calculated using the HW-BUCK bucking optimizer software package. <i>[Vita removed March 2011. GMc]</i> / Master of Science Appalachia Training Productivity Timber Harvesting Cable-logging Timber Sales Value Recovery

Search results