P. J. Pellicane scite author profile

Strength and stiffness together with some properties characterizing the stand and the growth of trees were studied. Specimens (45 • 70 x 2900 mm 3) were cut from different radial and longitudinal positions, from fast-grown trees from two stands in southern Sweden. These trees had relatively large annual rings (4-6 mm) and were not representative of Norway spruce in Sweden but are an example of the intensivelymanaged stands which will probably constitute a substantial part of the raw material supply in the future.The results indicate that the mean values for strength and stiffness were lowest for the core studs and increased further away from the pith. This radial variation in strength and stiffness appears to be associated with the variation in ring width. Density alone, on the other hand, does not explain the radial variation but should be used together with either ring width or knot area ratio to explain the stiffness and strength respectively. The increase in the strength and stiffness of the core studs from the butt logs to the top logs was significant. Density alone was found to be the best variable to explain the longitudinal variation between the butt logs and the top logs. The heartwood formation in the butt log juvenile core appeared not to have a positive effect on strength and stiffness. The occurrence of compression wood, the magnitude of grain angle and the margin knot area ratio had only a minor effect on strength and stiffness.

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Goodness-of-fit analysis for lumber data

Pellicane

1985

Wood Sci. Technol.

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P. J. Pellicane

Modeling Bolted Connections in Wood: Review

Nonlinear Material Models for Analysis of Bolted Wood Connections

Finite-Element Analysis of Wood Joints

Quality of timber products from Norway spruce

Goodness-of-fit analysis for lumber data

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