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41 records – page 1 of 3.

Wind and Earthquake Design Framework for Tall Wood-Concrete Hybrid System

https://research.thinkwood.com/en/permalink/catalogue2143
Year of Publication
2019
Topic
Seismic
Wind
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Author
Tesfamariam, Solomon
Bezabeh, Matiyas
Skandalos, Konstantinos
Martinez, Edel
Dires, Selamawit
Bitsuamlak, Girma
Goda, Katsuichiro
Year of Publication
2019
Country of Publication
Canada
Format
Report
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Topic
Seismic
Wind
Keywords
Tall Wood
Seismic design factors
Wind tunnel test
Ductility Factors
Timber-reinforced concrete
Force Modification Factors
Probabilistic Model
Wind Load
Overstrength seismic force
Language
English
Research Status
Complete
Notes
DOI 10.14288/1.0380777
Summary
Advancement in engineered wood products altered the existing building height limitations and enhanced wooden structural members that are available on the market. These coupled with the need for a sustainable and green solution to address the ever-growing urbanization demand, avails wood as possible candidate for primary structural material in the construction industry. To this end, several researches carried out in the past decade to come up with sound structural solutions using a timber based structural system. Green and Karsh (2012) introduced the FFTT system; Tesfamariam et al. (2015) developed force-based design guideline for steel infilled with CLT shear walls, and SOM (2013) introduced the concrete jointed mass timber hybrid structural concepts. In this research, the basic structural concepts proposed by SOM (2013) is adopted. The objective of this research is to develop a wind and earthquake design guideline for concrete jointed tall mass timber buildings in scope from 10- to 40-storey office or residential buildings. The specific objective of this research is as follow: Wind serviceability design guideline for hybrid mass-timber structures. Calibration of design wind load factors for the serviceability wind design of hybrid tall mass timber structures. Guidelines to perform probabilistic modeling, reliability assessment, and wind load factor calibration. Overstrength related modification factor Ro and ductility related modification factor Rd for future implementation in the NBCC. Force-based design guideline following the capacity based design principles.
Online Access
Free
Resource Link
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Development of a Ready-to- Assemble Tornado Shelter from Cross-Laminated Timber (CLT): Impact and Wind Pressure Testing

https://research.thinkwood.com/en/permalink/catalogue2099
Year of Publication
2019
Topic
Design and Systems
Wind
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Author
Falk, Robert
Bridwell, James
Williamson, Tom
Black, Todd
Organization
Forest Products Laboratory
Year of Publication
2019
Country of Publication
United States
Format
Report
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Topic
Design and Systems
Wind
Keywords
Tornado
Residential
Lateral Load
Uplift Test
Language
English
Research Status
Complete
Summary
The development and use of tornado shelters have helped reduce loss of human life associated with extreme weather events. Currently, the majority of shelters are built from either steel or concrete. The development of the crosslaminated timber (CLT) industry in the United States has provided an ideal wood product to resist the debris impact...
Online Access
Free
Resource Link
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An Exploration into Tornado Resistant Residential CLT Structures

https://research.thinkwood.com/en/permalink/catalogue2111
Year of Publication
2019
Topic
Wind
Design and Systems
Mechanical Properties
Material
CLT (Cross-Laminated Timber)
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems

Risk-Based Wind Design of Tall Mass-Timber Buildings

https://research.thinkwood.com/en/permalink/catalogue1970
Year of Publication
2018
Topic
Wind
Material
CLT (Cross-Laminated Timber)
Glulam (Glue-Laminated Timber)
Application
General Application
Wood Building Systems

Wind-Induced Vibrations in Timber Buildings—Parameter Study of Cross-Laminated Timber Residential Structures

https://research.thinkwood.com/en/permalink/catalogue1844
Year of Publication
2018
Topic
Wind
Acoustics and Vibration
Material
CLT (Cross-Laminated Timber)
Application
Walls
General Application
Author
Edskär, Ida
Lidelöw, Helena
Publisher
Taylor&Francis Online
Year of Publication
2018
Country of Publication
United Kingdom
Format
Journal Article
Material
CLT (Cross-Laminated Timber)
Application
Walls
General Application
Topic
Wind
Acoustics and Vibration
Keywords
Dynamic Behaviour
Mass Timber
Natural Frequency
Acceleration
Comfort Properties
Language
English
Research Status
Complete
Series
Structural Engineering International
Online Access
Free
Resource Link
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On the Lateral Stability of Multi-Story Mass-Timber Buildings Subjected to Tornado-Like Wind Field

https://research.thinkwood.com/en/permalink/catalogue1972
Year of Publication
2018
Topic
Wind
Design and Systems
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
General Application

Feasibility Study of a Wood-Concrete Hybrid Super Tall Building and Optimization of its Wind-Induced Behaviour

https://research.thinkwood.com/en/permalink/catalogue1902
Year of Publication
2018
Topic
Design and Systems
Wind
Material
CLT (Cross-Laminated Timber)
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems
Floors
Frames
Walls
Shafts and Chases

The Lateral Load Resistance of Unclassified Cross-Laminated Timber Walls: Experimental Tests and Theoretical Approach

https://research.thinkwood.com/en/permalink/catalogue1294
Year of Publication
2018
Topic
Mechanical Properties
Seismic
Wind
Material
CLT (Cross-Laminated Timber)
Application
Walls

Dynamical Properties of a Large Glulam Truss for a Tall Timber Building

https://research.thinkwood.com/en/permalink/catalogue2036
Year of Publication
2018
Topic
Wind
Mechanical Properties
Connections
Material
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems
Trusses

Feasibility Study of Mass-Timber Cores for the UBC Tall Wood Building

https://research.thinkwood.com/en/permalink/catalogue1895
Year of Publication
2018
Topic
Design and Systems
Environmental Impact
Seismic
Wind
Material
LVL (Laminated Veneer Lumber)
Application
Shafts and Chases

Feasibility Study of Tall Concrete-Timber Hybrid System

https://research.thinkwood.com/en/permalink/catalogue1274
Year of Publication
2017
Topic
Seismic
Wind
Design and Systems
Application
Hybrid Building Systems

Lateral Load-Resisting System Using Mass Timber Panel for High-Rise Buildings

https://research.thinkwood.com/en/permalink/catalogue1221
Year of Publication
2017
Topic
Seismic
Wind
Design and Systems
Material
LSL (Laminated Strand Lumber)
Application
Shear Walls
Hybrid Building Systems

Tall Timber Buildings—A Preliminary Study of Wind-Induced Vibrations of a 22-Storey Building

https://research.thinkwood.com/en/permalink/catalogue2356
Year of Publication
2016
Topic
Wind
Material
CLT (Cross-Laminated Timber)
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems
General Application
Author
Johansson, Marie
Linderholt, Andreas
Jarnerö, Kirsi
Landel, Pierre
Year of Publication
2016
Country of Publication
Austria
Format
Conference Paper
Material
CLT (Cross-Laminated Timber)
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems
General Application
Topic
Wind
Keywords
Deflection
Dynamic Properties
Stabilisation
Sway
Wind Loads
Tall Timber
Language
English
Conference
World Conference on Timber Engineering
Research Status
Complete
Summary
During the last years the interest in multi-storey timber buildings has increased and several medium-to high-rise buildings with light-weight timber structures have been designed and built. Examples of such are the 8-storey building “Limnologen” in Växjö, Sweden, the 9-storey “Stadthouse” in London, UK and the 14-storey building “Treet” in Bergen, Norway. The structures are all light-weight and flexible timber structures which raise questions regarding wind induced vibrations. This paper will present a finite element-model of a 22 storey building with a glulam-CLT structure. The model will be used to study the effect of different structural properties such as damping, mass and stiffness on the peak acceleration and will be compared to the ISO 10137 vibration criteria for human comfort. The results show that it is crucial to take wind-induced vibrations into account in the design of tall timber buildings.
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Free
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Tall Timber Buildings - A Preliminary Study of Wind-Induced Vibrations of a 22-Storey Building

https://research.thinkwood.com/en/permalink/catalogue1662
Year of Publication
2016
Topic
Wind
Mechanical Properties
Material
CLT (Cross-Laminated Timber)
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems
Author
Johansson, Marie
Linderholt, Andreas
Jarnerö, Kirsi
Landel, Pierre
Year of Publication
2016
Country of Publication
Austria
Format
Conference Paper
Material
CLT (Cross-Laminated Timber)
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems
Topic
Wind
Mechanical Properties
Keywords
Finite Element Model
Damping
Mass
Stiffness
Peak Acceleration
Language
English
Conference
World Conference on Timber Engineering
Research Status
Complete
Notes
August 22-25, 2016, Vienna, Austria p. 3657-3664
Summary
During the last years the interest in multi-storey timber buildings has increased and several medium-tohigh-rise buildings with light-weight timber structures have been designed and built. Examples of such are the 8-storey building “Limnologen” in Växjö, Sweden, the 9-storey “Stadthouse” in London, UK and the 14-storey building “Treet”...
Online Access
Free
Resource Link
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Cathedral Hill 2: Challenges in the Design of a Tall All-Timber Building

https://research.thinkwood.com/en/permalink/catalogue1660
Year of Publication
2016
Topic
Design and Systems
Seismic
Wind
Material
CLT (Cross-Laminated Timber)
LVL (Laminated Veneer Lumber)
Application
Wood Building Systems
Author
Below, Kevin
Sarti, Francesco
Year of Publication
2016
Country of Publication
Austria
Format
Conference Paper
Material
CLT (Cross-Laminated Timber)
LVL (Laminated Veneer Lumber)
Application
Wood Building Systems
Topic
Design and Systems
Seismic
Wind
Keywords
Pres-Lam
Dynamic Behaviour
Nonlinear Time History Analysis
Wind Loading
Language
English
Conference
World Conference on Timber Engineering
Research Status
Complete
Notes
August 22-25, 2016, Vienna, Austria p. 3633-3640
Summary
The paper presents the design and modelling of Cathedral Hill 2, a 15-storey timber building, planned for construction in Canada. The building is a 59-metre tall office-use construction with an all-timber structure where the lateral-load-resisting system consists of segmented Pres-Lam walls...
Online Access
Free
Resource Link
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The Challenges for Designers of Tall Timber Buildings

https://research.thinkwood.com/en/permalink/catalogue1489
Year of Publication
2016
Topic
Design and Systems
Fire
Seismic
Wind
Material
Glulam (Glue-Laminated Timber)
CLT (Cross-Laminated Timber)
LVL (Laminated Veneer Lumber)
Application
Wood Building Systems
Author
Buchanan, Andrew
Year of Publication
2016
Country of Publication
Austria
Format
Conference Paper
Material
Glulam (Glue-Laminated Timber)
CLT (Cross-Laminated Timber)
LVL (Laminated Veneer Lumber)
Application
Wood Building Systems
Topic
Design and Systems
Fire
Seismic
Wind
Keywords
Fire Safety
Seismic Load
Wind Load
Language
English
Conference
World Conference on Timber Engineering
Research Status
Complete
Notes
August 22-25, 2016, Vienna, Austria p. 124-133
Summary
This paper describes several major challenges facing the designers of tall timber buildings. “Tall” in this context generally means 10 storeys or more, although many of the challenges also apply to timber buildings over 4 or 6 storeys, becoming more severe as the buildings get taller...
Online Access
Free
Resource Link
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Ambient Vibration Tests of a Cross-Laminated Timber Building

https://research.thinkwood.com/en/permalink/catalogue313
Year of Publication
2015
Topic
Wind
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Shear Walls
Author
Reynolds, Thomas
Harris, Richard
Chang, Wen-Shao
Bregulla, Julie
Bawcombe, Jonathan
Publisher
ICE Publishing
Year of Publication
2015
Country of Publication
United Kingdom
Format
Journal Article
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Shear Walls
Topic
Wind
Keywords
Damping
Dynamic Movement
In Situ
Multi-Storey
Stiffness
Modal Properties
Ambient Vibration Method
Language
English
Research Status
Complete
Series
Proceedings of the Institution of Civil Engineers - Construction Materials
ISSN
1747-6518
Online Access
Free
Resource Link
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Building Higher with Light-Weight Timber Structures: The Effect of Wind Induced Vibrations

https://research.thinkwood.com/en/permalink/catalogue89
Year of Publication
2015
Topic
Acoustics and Vibration
Wind
Material
CLT (Cross-Laminated Timber)
Light Frame (Lumber+Panels)
Glulam (Glue-Laminated Timber)
Application
Wood Building Systems

Wind-Induced Dynamic Response of a 22-Storey Timber Building: Options for Structural Design of the Hallonbergen Project

https://research.thinkwood.com/en/permalink/catalogue64
Year of Publication
2015
Topic
Design and Systems
Wind
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems

Dynamic Response of Tall Timber Buildings

https://research.thinkwood.com/en/permalink/catalogue130
Year of Publication
2015
Topic
Design and Systems
Wind
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Author
Abeysekera, Ishan
MÁLAGA-CHUQUITAYPE, Christian
Organization
Society for Earthquake and Civil Engineering Dynamics
Year of Publication
2015
Country of Publication
United Kingdom
Format
Conference Paper
Material
CLT (Cross-Laminated Timber)
Application
Wood Building Systems
Topic
Design and Systems
Wind
Keywords
High-Rise
Mid-Rise
Tall Wood
Tornado
Dynamic Behaviour
Finite element (FE) model
Language
English
Conference
SECED 2015 Conference
Research Status
Complete
Notes
July 9-10, 2015, Cambridge, UK
Online Access
Free
Resource Link
Less detail

41 records – page 1 of 3.