Experimental Study on the Quasi-Static Cyclic and Dynamic Performance of Two-Story Platform Cross-Laminated Timber Mock-Ups

Experimental Study on the Quasi-Static Cyclic and Dynamic Performance of Two-Story Platform Cross-Laminated Timber Mock-Ups

AbstractCross-laminated timber (CLT) is a mass timber product that has been used increasingly as a sustainable and cost-effective alternative to conventional construction materials such as concrete and steel. Understanding the seismic performance of CLT buildings is vital in the design process for e...

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Bibliographic Details
Published in:Journal of performance of constructed facilities Vol. 38; no. 6
Main Authors: Mohammdadyzadeh, Samira, Ganjali, Houman, Zhou, Jianhui, Tannert, Thomas
Format: Journal Article
Language:English
Published: New York American Society of Civil Engineers 01-12-2024
Subjects:
Acoustic insulation
Acoustics
Building codes
Cross laminating
Cyclic loads
Cyclic testing
Damping ratio
Earthquake construction
Earthquake damage
Earthquake dampers
Empirical equations
Floors
Hammers
High rise buildings
Mockups
Resonant frequencies
Seismic hazard
Seismic response
Shear walls
Static loads
Steel construction
Stiffness
Technical Papers
Timber construction
Wood laminates
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Summary:AbstractCross-laminated timber (CLT) is a mass timber product that has been used increasingly as a sustainable and cost-effective alternative to conventional construction materials such as concrete and steel. Understanding the seismic performance of CLT buildings is vital in the design process for engineers as the use of CLT has increased toward mid- and high-rise buildings. In this study, the experimental dynamic behavior of three full-scale two-story platform CLT shear wall mock-ups were investigated under quasi-static reversed cyclic and interval impact hammer modal tests. The mock-ups differed in the tension splice between the two stories, the level of dead load, and the installation of an acoustic insulation layer between stories. The impact hammer modal tests were conducted during different steps of the reversed cyclic tests to extract modal characteristics such as natural frequencies, damping ratios, and mode shapes in the defined drifts of frequent, medium, and rare seismic hazard levels. The mock-up’s experimental first period was in good agreement with the results predicted by the empirical equation in the National Building Code of Canada (NBCC). The stiffness degradation during the reversed cyclic tests was related to frequency reductions representing an index of damage. The presence of an acoustic layer increased the damping ratio and stiffness in the first three measured modes. However, further investigations are needed to see the extent of the effect of acoustic layers between the walls and floors on the lateral performance of timber buildings equipped with CLT shear walls and floors.
ISSN:0887-3828
1943-5509
DOI:10.1061/JPCFEV.CFENG-4852