Add to ORKGThis work is exhibiting a new laboratory investigation method to obtain fibre 3D angle measurement of a wood piece after successive planing of the whole specimen. By combining in-plane fibre measurements through laser points measurements (using the tracheid effect) and growth layer reconstruction through image processing of RGB scans of each revealed planed faces of the douglas fir specimen, we achieve to make a full map of the 3D fibre angle of the wood piece
This study presents a method for predicting the local fiber orientation of veneers made from peeled ...
The connection between branch and trunk in a tree must be strong enough to transfer all loads acting...
Abstract In order to obtain high production rates of sawn timber, the sawmilling industry can use la...
This work is exhibiting a new laboratory investigation method to obtain fibre 3D angle measurement o...
The strength of structural timber largely depends on the occurrence of knots and on the local materi...
Ongoing research concerns the possibility of determining the 3D orientation of wood fibres within th...
Local fiber direction is decisive for both strength and stiffness in timber. In-plane fiber directio...
Wood is an orthotropic material with very different properties along and across fibres, and every bo...
Recentresearch has shown that machine strength grading based on tracheid effectscanning of fibre dir...
Optical scanning and X-ray computed tomography (CT) scanning of sawn timber provide a large number o...
Knowledge of the three-dimensional orthogonal directions of wood material at any position within a t...
Scanner measurements allow knot detection and machine strength grading on sawn timber. In particular...
Most machine strength grading methods of today result in limited grading accuracy and poor yield in ...
International audienceScanner measurements allow knot detection and machine strength grading on sawn...
The mechanical properties of wood are governed by growth-dependent structures on themicro- and macro...
This study presents a method for predicting the local fiber orientation of veneers made from peeled ...
The connection between branch and trunk in a tree must be strong enough to transfer all loads acting...
Abstract In order to obtain high production rates of sawn timber, the sawmilling industry can use la...
This work is exhibiting a new laboratory investigation method to obtain fibre 3D angle measurement o...
The strength of structural timber largely depends on the occurrence of knots and on the local materi...
Ongoing research concerns the possibility of determining the 3D orientation of wood fibres within th...
Local fiber direction is decisive for both strength and stiffness in timber. In-plane fiber directio...
Wood is an orthotropic material with very different properties along and across fibres, and every bo...
Recentresearch has shown that machine strength grading based on tracheid effectscanning of fibre dir...
Optical scanning and X-ray computed tomography (CT) scanning of sawn timber provide a large number o...
Knowledge of the three-dimensional orthogonal directions of wood material at any position within a t...
Scanner measurements allow knot detection and machine strength grading on sawn timber. In particular...
Most machine strength grading methods of today result in limited grading accuracy and poor yield in ...
International audienceScanner measurements allow knot detection and machine strength grading on sawn...
The mechanical properties of wood are governed by growth-dependent structures on themicro- and macro...
This study presents a method for predicting the local fiber orientation of veneers made from peeled ...
The connection between branch and trunk in a tree must be strong enough to transfer all loads acting...
Abstract In order to obtain high production rates of sawn timber, the sawmilling industry can use la...