Theoretical analysis of light-weight truss construction in fire conditions, including the use of fire-retardant-treatment wood

Ziemba, Gilead Reed.

January 2006

Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: light-weight truss construction, fire scenario, fire-retardant-treated wood. Includes bibliographical references (p.81-83).

Selected Topics of Deep Learning Application in Forest Research

Fanyou Wu (11620621)

19 December 2021

<div>Digital Forestry uses digital technology and multidisciplinary expertise to measure, monitor, and manage urban and rural forests to maximize social, economic, and ecological benefits. </div><div><br></div><div>In chapter 2, we investigated the potential use of CNNs for hardwood lumber identification based on tangential plane images. In chapter 3, we developed deep bark, a lightweight tree species identification application, by using deep learning. In chapter 4, we first introduced a new dataset of images of hardwood species annotated for tree ring detection. We applied the state-of-art semantic segmentation models to the dataset. In chapter 5, we combined the observed classes and non-observed classes by distinguishing the attributes of objects and applied zero-shot learning to microscopic wood images. <br></div><div> </div><div>The results above chapters demonstrated the potential and effectiveness of machine learning in many forestry-related tasks. Those applications help both the research community and industry to conduct better digital forestry business. However, we still need to point out that the availability, quality, and quantity of data and annotation are critical factors in conducting meaningful research and applications in forestry.</div>

Wood Building Materials

Timber volume element prefabrication : production and market aspects /

Höök, Matilda,

January 2005

Licentiatavhandling (sammanfattning) Luleå : Luleå tekniska universitet, 2005. / Härtill 3 uppsatser + 2 appendix.

Feasibility of multi storey post-tensioned timber buildings : detailing, cost and construction : a thesis submitted in partial fulfilment of the requirements for the degree of Master of Engineering in Civil Engineering at the University of Canterbury /

Smith, Tobias J.

January 2008

Thesis (M.E.)--University of Canterbury, 2008. / Typescript (photocopy). Includes bibliographical references (p. 124-129). Also available via the World Wide Web.

Predicting the failure times of glulam members exposed to fire /

Simpson, Lisa May Pearl,

January 1900

Thesis (M.App.Sc.) - Carleton University, 2007. / Includes bibliographical references (p. 136-140). Also available in electronic format on the Internet.

Investigating the Performance of Wood Portal Frames as Alternative Bracing Systems in Light-Frame Wood Buildings

Al Mamun, Abdullah

07 August 2012

Light-frame shearwall assemblies have been successfully used to resist gravity and lateral loads, such as earthquake and wind, for many decades. However, there is a need for maintaining the structural integrity of such buildings even when large openings in walls are introduced. Wood portal frame systems have been identified as a potential alternative to meet some aspects of this construction demand. The overarching goal of the research is to develop wood portal frame bracing systems, which can be used as an alternative or in combination with light-frame wood shearwalls. This is done through investigating the behavior of wood portal frames using the MIDPLY shearwall framing technique. A total of 21 MIDPLY corner joint tests were conducted with varying bracing details. Also, a finite element model was developed and compared with test results from the current study as well as studies by others. It was concluded from the corner joint tests that the maximum moment resistance increased with the addition of metal straps or exterior sheathings. The test results also showed a significant increase in the moment capacity and rotational stiffness by replacing the Spruce-Pine Fir (SPF), header with the Laminated Veneer Lumber (LVL) header. The addition of the FRP to the standard wall configuration also resulted in a significant increase in the moment capacity. However, no significant effect was observed on the stiffness properties of the corner joint. The FE model was capable of predicting the behavior of the corner joints and the full-scale portal frames with realistic end-conditions. The model closely predicted the ultimate lateral capacity for all the configurations but more uncertainty was found in predicting the initial stiffness.The FE model used to estimate the behavior of the full-scale portal frames constructed using the MIDPLY framing techniques showed a significant increase in the lateral load carrying capacity when compared with the traditional portal frame. It was also predicted using the full-scale FE model that the lateral load carrying capacity of the MIDPLY portal frame would increase with the addition of the metal straps on exterior faces. A parametric study showed that using a Laminated Strand Lumber (LSL) header increased the lateral load carrying capacity and the initial stiffness of the frames relative to the SPF header. The study also showed that there was an increase in the capacity if high strength metal straps were used. Doubling of the nail spacing at header and braced wall segment had a considerable effect on the lateral capacity of portal frame. Also, the initial stiffness was reduced for all the configurations with the doubling of the nail spacing at the header and braced wall segment in comparison with the reference frame.

Portal Frame

Alternative Bracing System

Lateral Bracing System

Light-Wood Building

Corner Joint Test

FRP

Finite Element Model

Investigating the Performance of Wood Portal Frames as Alternative Bracing Systems in Light-Frame Wood Buildings

Al Mamun, Abdullah

07 August 2012

Light-frame shearwall assemblies have been successfully used to resist gravity and lateral loads, such as earthquake and wind, for many decades. However, there is a need for maintaining the structural integrity of such buildings even when large openings in walls are introduced. Wood portal frame systems have been identified as a potential alternative to meet some aspects of this construction demand. The overarching goal of the research is to develop wood portal frame bracing systems, which can be used as an alternative or in combination with light-frame wood shearwalls. This is done through investigating the behavior of wood portal frames using the MIDPLY shearwall framing technique. A total of 21 MIDPLY corner joint tests were conducted with varying bracing details. Also, a finite element model was developed and compared with test results from the current study as well as studies by others. It was concluded from the corner joint tests that the maximum moment resistance increased with the addition of metal straps or exterior sheathings. The test results also showed a significant increase in the moment capacity and rotational stiffness by replacing the Spruce-Pine Fir (SPF), header with the Laminated Veneer Lumber (LVL) header. The addition of the FRP to the standard wall configuration also resulted in a significant increase in the moment capacity. However, no significant effect was observed on the stiffness properties of the corner joint. The FE model was capable of predicting the behavior of the corner joints and the full-scale portal frames with realistic end-conditions. The model closely predicted the ultimate lateral capacity for all the configurations but more uncertainty was found in predicting the initial stiffness.The FE model used to estimate the behavior of the full-scale portal frames constructed using the MIDPLY framing techniques showed a significant increase in the lateral load carrying capacity when compared with the traditional portal frame. It was also predicted using the full-scale FE model that the lateral load carrying capacity of the MIDPLY portal frame would increase with the addition of the metal straps on exterior faces. A parametric study showed that using a Laminated Strand Lumber (LSL) header increased the lateral load carrying capacity and the initial stiffness of the frames relative to the SPF header. The study also showed that there was an increase in the capacity if high strength metal straps were used. Doubling of the nail spacing at header and braced wall segment had a considerable effect on the lateral capacity of portal frame. Also, the initial stiffness was reduced for all the configurations with the doubling of the nail spacing at the header and braced wall segment in comparison with the reference frame.

Portal Frame

Alternative Bracing System

Lateral Bracing System

Light-Wood Building

Corner Joint Test

FRP

Finite Element Model

Investigating the Performance of Wood Portal Frames as Alternative Bracing Systems in Light-Frame Wood Buildings

Al Mamun, Abdullah

January 2012

Light-frame shearwall assemblies have been successfully used to resist gravity and lateral loads, such as earthquake and wind, for many decades. However, there is a need for maintaining the structural integrity of such buildings even when large openings in walls are introduced. Wood portal frame systems have been identified as a potential alternative to meet some aspects of this construction demand. The overarching goal of the research is to develop wood portal frame bracing systems, which can be used as an alternative or in combination with light-frame wood shearwalls. This is done through investigating the behavior of wood portal frames using the MIDPLY shearwall framing technique. A total of 21 MIDPLY corner joint tests were conducted with varying bracing details. Also, a finite element model was developed and compared with test results from the current study as well as studies by others. It was concluded from the corner joint tests that the maximum moment resistance increased with the addition of metal straps or exterior sheathings. The test results also showed a significant increase in the moment capacity and rotational stiffness by replacing the Spruce-Pine Fir (SPF), header with the Laminated Veneer Lumber (LVL) header. The addition of the FRP to the standard wall configuration also resulted in a significant increase in the moment capacity. However, no significant effect was observed on the stiffness properties of the corner joint. The FE model was capable of predicting the behavior of the corner joints and the full-scale portal frames with realistic end-conditions. The model closely predicted the ultimate lateral capacity for all the configurations but more uncertainty was found in predicting the initial stiffness.The FE model used to estimate the behavior of the full-scale portal frames constructed using the MIDPLY framing techniques showed a significant increase in the lateral load carrying capacity when compared with the traditional portal frame. It was also predicted using the full-scale FE model that the lateral load carrying capacity of the MIDPLY portal frame would increase with the addition of the metal straps on exterior faces. A parametric study showed that using a Laminated Strand Lumber (LSL) header increased the lateral load carrying capacity and the initial stiffness of the frames relative to the SPF header. The study also showed that there was an increase in the capacity if high strength metal straps were used. Doubling of the nail spacing at header and braced wall segment had a considerable effect on the lateral capacity of portal frame. Also, the initial stiffness was reduced for all the configurations with the doubling of the nail spacing at the header and braced wall segment in comparison with the reference frame.

Portal Frame

Alternative Bracing System

Lateral Bracing System

Light-Wood Building

Corner Joint Test

FRP

Finite Element Model

Wind-induced Vibration Control of Tall Timber Buildings : Improving the dynamic response of a 22-storey timber building

Al Haddad, Aiham Emil

January 2016

Plans for construction of the tallest residential timber building has driven the Technical Research Institute of Sweden (SP), Linnaeus University, Växjö and more than ten interested companies to determine an appropriate design for the structure. This thesis presents a part of ongoing research regarding wind-induced vibration control to meet serviceability limit state (SLS) requirements. A parametric study was conducted on a 22-storey timber building with a CLT shear wall system utilizing mass, stiffness and damping as the main parameters in the dynamic domain. Results were assessed according to the Swedish Annex EKS 10 and Eurocode against ISO 10137 and ISO 6897 requirements. Increasing mass, stiffness and/or damping has a favorable impact. Combination scenarios present potential solutions for suppressing wind-induced vibrations as a result of higher efficiency in low-increased levels of mass and damping.

timber building

wood building

structural dynamics

damping

viscoelastic dampers

22-storey timber

wind-induced vibrations

acceleration control

increased mass

increased stiffness

ISO 10137

ISO 6897

EKS 10

O conjunto habitacional de \"Via Cenni\" em Milão como contribuição para habitações sociais de madeira no Brasil / The \"Via Cenni\" residential complex in Milan as a contribution to wooden social housing in Brazil

Grinover, Enzo

16 May 2018

Este trabalho se propõe avaliar e investigar novas tecnologias construtivas de madeira para habitação social no Brasil. O campo desta investigação é o conjunto residencial social de \"Via Cenni\" em Milão Itália. O estudo do caso Cenni, dos seus aspectos financeiros-econômicos, projetuais, construtivos de madeira e de ocupação do conjunto, relacionará este conjunto habitacional às possíveis diretrizes e estudos preliminares para sistemas construtivos de madeira no Brasil. Pretendemos difundir o uso da madeira na construção habitacional social com sistemas semelhantes ao CLT (cross laminated timber) ou XLAM (painéis de laminas maciças fixadas em X) e criar melhoria das condições de vida da população urbana e rural mais necessitada. / The main aim of this thesis is to evaluate and reserch new technologies in wood construction for social housing in Brazil. The field of this investigation is the \"Via Cenni\" residential complex in Milan, Italy. The study of \"Via Cenni\"\'s case, its financial and economics aspects, projectuals, wood building and the complex occupation will connect this residential complex to possible guidelines and to preliminary studies for wood constructions systems in Brazil. It is expected to diffuse the uses of wood in the social housing construction with similar systems to CLT(cross laminated timber) or XLAM (solid blades panels fixed in X) and to improve life conditions to the needy urban and rural population.

Construção de madeira

Constructions systems and processes

Habitação de interesse social

Itália

Italy

Milan

Milão

Pré-fabricação

Pre-fabrication

Sistemas e processos construtivos

Social housing

Wood building