An On-Going Monitoring Project of a New Timber Structure

Francesca Lanata

doi:10.4028/www.scientific.net/AMR.778.757

Paper Titles

Development of Wood-Based Multi-Layer Systems in Existing Building Stock
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Repairing a Medieval Door
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12 Years of Structural Health Assessment and Maintenance for the Glulam Timber Structure of the Mormanno Traffic Bridge in Calabria
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X-Lam Panels in Swimming-Pool Building – Monitoring the Environment and the Performance
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A Numerical Approach for the Hygro-Thermal Monitoring of Timber Structures under Environmental Conditions
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 778An On-Going Monitoring Project of a New Timber...

An On-Going Monitoring Project of a New Timber Structure

Abstract:

Structural design, regardless of construction material, is based mainly on deterministic codes that partially take into account the real structural response under service and environmental conditions. This approach can lead to overdesigned (and expensive) structures. The differences between the designed and the real behaviors are usually due to service loads not taken into account during the design or simply to the natural degradation of materials properties with time. This is particularly true for wood, which is strongly influenced by service and environmental conditions. Structural Health Monitoring can improve the knowledge of timber structures under service conditions, provide information on material aging and follow the degradation of the overall building performance with time.A long-term monitoring control has been planned on a three-floor structure composed by wooden trusses and composite concrete-wood slabs. The structure is located in Nantes, France, and it is the new extension to the Wood Science and Technology Academy (ESB). The main purpose of the monitoring is to follow the long-term structural response from a mechanical and energetic point of view, particularly during the first few service years. Both static and dynamic behavior is being followed through strain gages and accelerometers. The measurements will be further put into relation with the environmental changes, temperature and humidity in particular, and with the operational charges with the aim to improve the comprehension of long-term performances of wooden structures under service. The goal is to propose new improved and optimized methods to make timber constructions more efficient compared to other construction materials (masonry, concrete, steel).The paper will mainly focus on the criteria used to design the architecture of the monitoring system, the parameters to measure and the sensors to install. The first analyses of the measurements will be presented at the conference to have a feedback on the performance of the installed sensors and to start to define a general protocol for the Structural Health Monitoring of such type of timber structures.

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Periodical:

Advanced Materials Research (Volume 778)

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757-764

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.778.757

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Online since:

September 2013

Authors:

Francesca Lanata

Keywords:

In-Service Behavior, Strain Gages, Structural Health Monitoring (SHM), Timber Structure

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