Abstract
Round timber is often used for hydraulic engineering works, but the strength grading of round logs is not as well developed as that of sawn timber. The advantages of using defined strength classes, as well as the proper selection of the raw material, could be applicable to hydraulic works as well. In this study, the methods and rules developed for sawn timber were applied to the mechanical selection of oak round logs, paying particular attention to the issue of the simplicity of grading operations and the moisture content of the timber. Both the acoustic velocity and dynamic modulus of elasticity of oak logs were measured with different instruments before performing destructive bending tests; machine settings were derived for both properties and dry and wet grading operations were simulated to compare efficiency. The use of the dynamic modulus of elasticity makes machine grading more efficient. On the other hand, the use of acoustic velocity alone is feasible and makes the procedure much faster, even if wet grading resulted in very conservative estimations. The yields obtained were similar for lower grades, but to achieve higher strength classes, the dynamic modulus was preferable. For very fast and less expensive measurements, velocity could be considered an appropriate method, as an improvement over the use of unselected material.
Highlights
Round timber is considered an important resource in wooden construction
When dealing with round wood, a central topic is the exploitation of small-diameter trees, often unsuitable for sawn timber production and of low market value
Round wood is widely used in this sector—even large-dimension logs—but due to poor characterization of the raw material, the over-engineering of structures is often a solution, both of the size and number of elements used
Summary
Round timber is considered an important resource in wooden construction It was widely used in the past and it is experiencing a rejuvenation due to the increased focus on sustainability and the role of natural resources in combating climate change [1]. When dealing with round wood, a central topic is the exploitation of small-diameter trees, often unsuitable for sawn timber production and of low market value. Considering that these trees shall be cut down profitably to ensure proper forest management, the potential use of the material obtained from them in the wood construction sector assumes an economic importance that should not be underestimated [2]. Round wood is widely used in this sector—even large-dimension logs—but due to poor characterization of the raw material, the over-engineering of structures is often a solution, both of the size and number of elements used
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