Influence of face grain angle, size, and moisture content on the edgewise bending strength and stiffness of birch plywood

[Display omitted] •Size effect on the edgewise bending strength is observable at 0° and 90° but not at angles in between.•Linear models can describe the property-moisture relationships of birch plywood in the hygroscopic range.•The proposed failure definitions predict the angle-dependent edgewise be...

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Published inMaterials & design Vol. 223; p. 111227
Main Authors Wang, Tianxiang, Wang, Yue, Crocetti, Roberto, Wålinder, Magnus
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2022
Elsevier
Subjects
Birch plywood
Edgewise bending
Face grain angle
Property -moisture relationships
Size effect
Birch plywood
Edgewise bending
Property-moisture relationships
Face grain angle
Size effect
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Abstract [Display omitted] •Size effect on the edgewise bending strength is observable at 0° and 90° but not at angles in between.•Linear models can describe the property-moisture relationships of birch plywood in the hygroscopic range.•The proposed failure definitions predict the angle-dependent edgewise bending strengths successfully.•It is feasible to assess the edgewise bending strength of birch plywood by detecting its elastic modulus non-destructively. Birch plywood exhibits outstanding mechanical properties with regards to tensile, compressive, and shear behaviors, making this engineered wood product promising in timber connection applications. However, the edgewise bending strength and stiffness, which are often critical for the design of gusset plates, have not been investigated thoroughly. Moreover, in engineering applications, the size and moisture content of the plywood plate are in general very different from those adopted in laboratory testing according to current standards. This paper aims to investigate the influence of face grain angle, size, and moisture content on the edgewise bending strength and stiffness of birch plywood. In total, 288 birch plywood specimens were tested in three-point bending at five different face grain angles to the beam longitudinal axis (from 0° (parallel) to 90° (perpendicular), with an angle step of 22.5°), with four different sizes (with the nominal depth of 20 mm, 30 mm, 40 mm, and 50 mm) and three different moisture contents (7.2 %, 11.9 %, and 21.8 %). Analytical and numerical models, both taking non-linear elasto-plastic compressive behaviors into account, were developed for the prediction of the ultimate moment capacity based on different failure definitions. Lastly, the relationships between the bending strength and elastic modulus were analyzed.
AbstractList Birch plywood exhibits outstanding mechanical properties with regards to tensile, compressive, and shear behaviors, making this engineered wood product promising in timber connection applications. However, the edgewise bending strength and stiffness, which are often critical for the design of gusset plates, have not been investigated thoroughly. Moreover, in engineering applications, the size and moisture content of the plywood plate are in general very different from those adopted in laboratory testing according to current standards. This paper aims to investigate the influence of face grain angle, size, and moisture content on the edgewise bending strength and stiffness of birch plywood. In total, 288 birch plywood specimens were tested in three-point bending at five different face grain angles to the beam longitudinal axis (from 0° (parallel) to 90° (perpendicular), with an angle step of 22.5°), with four different sizes (with the nominal depth of 20 mm, 30 mm, 40 mm, and 50 mm) and three different moisture contents (7.2 %, 11.9 %, and 21.8 %). Analytical and numerical models, both taking non-linear elasto-plastic compressive behaviors into account, were developed for the prediction of the ultimate moment capacity based on different failure definitions. Lastly, the relationships between the bending strength and elastic modulus were analyzed.
Birch plywood exhibits outstanding mechanical properties with regards to tensile, compressive, and shear behaviors, making this engineered wood product promising in timber connection applications. However, the edgewise bending strength and stiffness, which are often critical for the design of gusset plates, have not been investigated thoroughly. Moreover, in engineering applications, the size and moisture content of the plywood plate are in general very different from those adopted in laboratory testing according to current standards. This paper aims to investigate the influence of face grain angle, size, and moisture content on the edgewise bending strength and stiffness of birch plywood. In total, 288 birch plywood specimens were tested in three-point bending at five different face grain angles to the beam longitudinal axis (from 0 degrees (parallel) to 90 degrees (perpendicular), with an angle step of 22.5 degrees), with four different sizes (with the nominal depth of 20 mm, 30 mm, 40 mm, and 50 mm) and three different moisture contents (7.2 %, 11.9 %, and 21.8 %). Analytical and numerical models, both taking non-linear elasto-plastic compressive behaviors into account, were developed for the prediction of the ultimate moment capacity based on different failure definitions. Lastly, the relationships between the bending strength and elastic modulus were analyzed.
[Display omitted] •Size effect on the edgewise bending strength is observable at 0° and 90° but not at angles in between.•Linear models can describe the property-moisture relationships of birch plywood in the hygroscopic range.•The proposed failure definitions predict the angle-dependent edgewise bending strengths successfully.•It is feasible to assess the edgewise bending strength of birch plywood by detecting its elastic modulus non-destructively. Birch plywood exhibits outstanding mechanical properties with regards to tensile, compressive, and shear behaviors, making this engineered wood product promising in timber connection applications. However, the edgewise bending strength and stiffness, which are often critical for the design of gusset plates, have not been investigated thoroughly. Moreover, in engineering applications, the size and moisture content of the plywood plate are in general very different from those adopted in laboratory testing according to current standards. This paper aims to investigate the influence of face grain angle, size, and moisture content on the edgewise bending strength and stiffness of birch plywood. In total, 288 birch plywood specimens were tested in three-point bending at five different face grain angles to the beam longitudinal axis (from 0° (parallel) to 90° (perpendicular), with an angle step of 22.5°), with four different sizes (with the nominal depth of 20 mm, 30 mm, 40 mm, and 50 mm) and three different moisture contents (7.2 %, 11.9 %, and 21.8 %). Analytical and numerical models, both taking non-linear elasto-plastic compressive behaviors into account, were developed for the prediction of the ultimate moment capacity based on different failure definitions. Lastly, the relationships between the bending strength and elastic modulus were analyzed.
ArticleNumber 111227
Author Wang, Yue
Wang, Tianxiang
Crocetti, Roberto
Wålinder, Magnus
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Keywords Birch plywood
Edgewise bending
Property-moisture relationships
Face grain angle
Size effect
Language English
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Snippet [Display omitted] •Size effect on the edgewise bending strength is observable at 0° and 90° but not at angles in between.•Linear models can describe the...
Birch plywood exhibits outstanding mechanical properties with regards to tensile, compressive, and shear behaviors, making this engineered wood product...
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StartPage 111227
SubjectTerms Birch plywood
Edgewise bending
Face grain angle
Property -moisture relationships
Size effect
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Title Influence of face grain angle, size, and moisture content on the edgewise bending strength and stiffness of birch plywood
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