Published Date
Abstract
References
For further details log on website :
http://link.springer.com/article/10.1007/s13595-016-0569-y
, Volume 73, Issue 3, pp 615-624
First online:
Title
Modelling the effects of wood cambial age on the effective modulus of elasticity of poplar laminated veneer lumber
- Author
Abstract
Key message
A modelling method is proposed to highlight the effect of cambial age on the effective modulus of elasticity of laminated veneer lumber (LVL) according to bending direction and veneer thickness. This approach is relevant for industrial purposes in order to optimize the performance of LVL products.
Context
LVL is used increasingly in structural applications. It is obtained from a peeling process, where product’s properties depend on cambial age, hence depend on radial position in the log.
Aims
This study aims to highlight how radial variations of properties and cambial age impact the mechanical behaviour of LVL panels.
Methods
An analytical mechanical model has been designed to predict the modulus of elasticity of samples made from poplar LVL panels. The originality of the model resides in the integration of different data from the literature dealing with the variation in wood properties along the radius of the log. The simulation of the peeling process leads to veneers with different mechanical properties, which are randomly assembled in LVL panels.
Results
The model shows a correct mechanical behaviour prediction in comparison with experimental results of the literature, in particular with the decrease in MOE in LVL made of juvenile wood. It highlights that the bending direction and veneer thickness have no influence on the average MOE, but affect MOE dispersion.
Conclusion
This paper proposed an adequate model to predict mechanical behaviour in the elastic domain of LVL panels based on the properties of raw wood material.
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For further details log on website :
http://link.springer.com/article/10.1007/s13595-016-0569-y
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