Decay susceptibility of rain exposed wood joints – comparison of two decay models
(2014) XIII International Conference on Durability of Building Materials and Components, 2014 p.204-211- Abstract
- Wood is susceptible to decay if it is exposed to high moisture contents and certain temperatures during long periods of time. In rain exposed structures, decay often starts close to joints since the joints can act as water traps where water stays after rain events. Service life prediction models for outdoor wood structures require knowledge about the moisture and temperature conditions in the wood as well as models that describe the degradation under these conditions. Recently, several models that describe decay of wood structures have been presented. In the present study, the results from two of these decay models from literature were compared. Moisture content data from a previous study where moisture content profiles were monitored in... (More)
- Wood is susceptible to decay if it is exposed to high moisture contents and certain temperatures during long periods of time. In rain exposed structures, decay often starts close to joints since the joints can act as water traps where water stays after rain events. Service life prediction models for outdoor wood structures require knowledge about the moisture and temperature conditions in the wood as well as models that describe the degradation under these conditions. Recently, several models that describe decay of wood structures have been presented. In the present study, the results from two of these decay models from literature were compared. Moisture content data from a previous study where moisture content profiles were monitored in joints of different designs were used as input data in the models. In general, both models identified the same points as critical points in terms of high decay susceptibility. However, the models gave somewhat different results in points where drying occurred between the watering periods. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/4672413
- author
- Fredriksson, Maria
LU
; Wadsö, Lars LU and Johansson, Peter LU
- organization
- publishing date
- 2014
- type
- Contribution to conference
- publication status
- published
- subject
- keywords
- Wood, durability, decay model, moisture content
- pages
- 204 - 211
- conference name
- XIII International Conference on Durability of Building Materials and Components, 2014
- conference location
- São Paulo, Brazil
- conference dates
- 2014-09-02 - 2014-09-05
- language
- English
- LU publication?
- yes
- id
- fcbcffef-8590-4126-920f-4662f826dcf8 (old id 4672413)
- date added to LUP
- 2016-04-04 14:40:42
- date last changed
- 2020-07-01 02:15:43
@misc{fcbcffef-8590-4126-920f-4662f826dcf8, abstract = {{Wood is susceptible to decay if it is exposed to high moisture contents and certain temperatures during long periods of time. In rain exposed structures, decay often starts close to joints since the joints can act as water traps where water stays after rain events. Service life prediction models for outdoor wood structures require knowledge about the moisture and temperature conditions in the wood as well as models that describe the degradation under these conditions. Recently, several models that describe decay of wood structures have been presented. In the present study, the results from two of these decay models from literature were compared. Moisture content data from a previous study where moisture content profiles were monitored in joints of different designs were used as input data in the models. In general, both models identified the same points as critical points in terms of high decay susceptibility. However, the models gave somewhat different results in points where drying occurred between the watering periods.}}, author = {{Fredriksson, Maria and Wadsö, Lars and Johansson, Peter}}, keywords = {{Wood; durability; decay model; moisture content}}, language = {{eng}}, pages = {{204--211}}, title = {{Decay susceptibility of rain exposed wood joints – comparison of two decay models}}, year = {{2014}}, }