Durability of oak timber bridges – Impact of inherent wood resistance and environmental conditions

Premature failure of timber construction can have dramatic consequences, at worst threat to human life or physical condition. Timber components might perform unexpectedly poor due to insufficient protection by misuse, design, low work execution level, or due to low resistance of the material in use....

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Bibliographic Details
Published in:International biodeterioration & biodegradation 2012-11, Vol.75, p.115-123
Main Authors: Brischke, C., Behnen, C.J., Lenz, M.-T., Brandt, K., Melcher, E.
Format: Article
Language:English
Subjects:
Coriolus versicolor
drilling
Drilling core
durability
Durability testing
environmental factors
Fungal decay
humans
laboratory techniques
Premature failure
Quercus robur
Service life prediction
soft-rot fungi
Test methodology
wood
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Summary:Premature failure of timber construction can have dramatic consequences, at worst threat to human life or physical condition. Timber components might perform unexpectedly poor due to insufficient protection by misuse, design, low work execution level, or due to low resistance of the material in use. However, information about the material resistance of prematurely failed structures is usually lacking. Therefore this study aimed on developing a method to display the relationship between damages occurring on structures in service and the resistance against wood-destroying fungi of the material used. Drilling cores taken from wooden structures were found to have the ability to serve as specimens in laboratory decay test when compared to standard specimens. Therefore, drilling cores were sampled from different components of six timber bridges in Hannover, Germany, made from English oak (Quercus robur L.). The cores were submitted to the white rot fungus Trametes versicolor and to soft rot fungi in terrestrial microcosms. The determined mass losses due to fungal decay were compared with the level of damage of the studied bridge components. The results indicated that the material-inherent resistance was responsible for damages rather than poor details of the construction. The methodological approach might be used to provide further knowledge about the relationship of timber in service and under ideal laboratory test conditions. ► Drilling core samples from oak timber bridges were tested against decay fungi. ► Wood resistance determined in the lab was compared with in-service performance. ► Results indicated that the material-inherent resistance was responsible for damages. ► Methodological approach useful to increase knowledge about reasons for premature failure.
ISSN:0964-8305
1879-0208
DOI:10.1016/j.ibiod.2012.09.010