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Duration of load and creep factors for cross-laminated timber panels

https://library.fpinnovations.ca/en/permalink/fpipub42945
Author
Pirvu, Ciprian
Karacabeyli, Erol
Date
January 2011
Material Type
Research report
Field
Sustainable Construction
construction. I. Gagnon, Sylvain, 1970- II. Pirvu, Ciprian, 1968- III. Title: Cross-laminated timber. IV
Author
Pirvu, Ciprian
Karacabeyli, Erol
Date
January 2011
Material Type
Research report
Physical Description
30 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Building Systems
Subject
Timber
Laminate product
Building construction
Design
Language
English
Abstract
Cross-laminated timber (CLT) products are used as load-carrying slab and wall elements in structural systems, thus load duration and creep behaviour are critical characteristics that should be taken into account in design. Given the nature of CLT with orthogonal arrangement of layers and either mechanically fastened with nails or wood dowels, or bonded with structural adhesive, CLT is more prone to time-dependent deformations under load (creep) than other engineered wood products such as glued-laminated timber. Time-dependent behaviour of structural wood products is accounted for in design standards by providing load duration factors to adjust specified strengths. Since the Canadian Standard on Engineering Design in Wood (CSA O86-09) does not deal with CLT, it does not provide load duration and service condition factors. Until this can be rectified, two options are proposed for adopters of CLT systems in Canada. These include not only load duration and service factors, but also an approach to accounting for creep in CLT structural elements. The proposed recommendations are in line with the specifications in CSA O86-09 and Canadian National Building Code.
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In-situ testing of wood innovation and design centre: floor vibration, building vibration, and sound insulation performance

https://library.fpinnovations.ca/en/permalink/fpipub53039
Author
Hu, Lin J.
Pirvu, Ciprian
Ramzi, Redouane
Date
July 2015
Material Type
Research report
Field
Sustainable Construction
Author
Hu, Lin J.
Pirvu, Ciprian
Ramzi, Redouane
Contributor
Forestry Innovation Investment
Date
July 2015
Material Type
Research report
Physical Description
49 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Advanced Wood Materials
Subject
Testing
Performance
Wood
Buildings
Language
English
Abstract
This report describes the building, tested floor and wall assemblies, test methods, and summarizes the test results. The preliminary performance data provides critical feedback on the design of the building for resisting wind-induced vibration and on the floor vibration controlled design. The data can be further used to validate the calculation methods and tools/models of dynamic analysis. Originally confidential to FII, they have provided permission to make the report available.
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