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Experimental verification of shear analogy approach to predict bending stiffness for softwood and hardwood cross-laminated timber panels
https://orcid.org/0000-0003-1448-3288
Highlights Three previously untested species of cross-laminated timber panels (CLT) were evaluated. Mechanical properties of lower grade softwood and hardwood CLT panels were compared. Shear analogy method compared for application to softwoods and to hardwoods. Adaptation of the inputs for the shear analogy approach for hardwoods were developed.
Abstract Lower grade material of three previously untested species (Eastern White Pine, Red Maple, and White Ash) were fabricated in Cross Laminated Timber (CLT) panels and tested to determine their mechanical properties. The results were compared to the ANSI/APA PRG-320 production standard for CLT. Both of the hardwood species met requirements for the V2 species group, but the softwood species did not. Next, the bending stiffness results were compared to bending stiffness predictions from the Shear Analogy approach as described in the US CLT Handbook. The Shear Analogy approach underpredicted the bending stiffness of the softwood CLT by less than 5%, and underpredicted the bending stiffness of the hardwood CLTs by about 25%. The difference in the hardwood prediction was reduced to about 15% by using published elastic moduli ratios. Average hardwood elastic moduli ratios for use with the Shear Analogy Method were proposed.
Experimental verification of shear analogy approach to predict bending stiffness for softwood and hardwood cross-laminated timber panels
https://orcid.org/0000-0003-1448-3288
Highlights Three previously untested species of cross-laminated timber panels (CLT) were evaluated. Mechanical properties of lower grade softwood and hardwood CLT panels were compared. Shear analogy method compared for application to softwoods and to hardwoods. Adaptation of the inputs for the shear analogy approach for hardwoods were developed.
Abstract Lower grade material of three previously untested species (Eastern White Pine, Red Maple, and White Ash) were fabricated in Cross Laminated Timber (CLT) panels and tested to determine their mechanical properties. The results were compared to the ANSI/APA PRG-320 production standard for CLT. Both of the hardwood species met requirements for the V2 species group, but the softwood species did not. Next, the bending stiffness results were compared to bending stiffness predictions from the Shear Analogy approach as described in the US CLT Handbook. The Shear Analogy approach underpredicted the bending stiffness of the softwood CLT by less than 5%, and underpredicted the bending stiffness of the hardwood CLTs by about 25%. The difference in the hardwood prediction was reduced to about 15% by using published elastic moduli ratios. Average hardwood elastic moduli ratios for use with the Shear Analogy Method were proposed.
Experimental verification of shear analogy approach to predict bending stiffness for softwood and hardwood cross-laminated timber panels
https://orcid.org/0000-0003-1448-3288
Highlights Three previously untested species of cross-laminated timber panels (CLT) were evaluated. Mechanical properties of lower grade softwood and hardwood CLT panels were compared. Shear analogy method compared for application to softwoods and to hardwoods. Adaptation of the inputs for the shear analogy approach for hardwoods were developed.
Abstract Lower grade material of three previously untested species (Eastern White Pine, Red Maple, and White Ash) were fabricated in Cross Laminated Timber (CLT) panels and tested to determine their mechanical properties. The results were compared to the ANSI/APA PRG-320 production standard for CLT. Both of the hardwood species met requirements for the V2 species group, but the softwood species did not. Next, the bending stiffness results were compared to bending stiffness predictions from the Shear Analogy approach as described in the US CLT Handbook. The Shear Analogy approach underpredicted the bending stiffness of the softwood CLT by less than 5%, and underpredicted the bending stiffness of the hardwood CLTs by about 25%. The difference in the hardwood prediction was reduced to about 15% by using published elastic moduli ratios. Average hardwood elastic moduli ratios for use with the Shear Analogy Method were proposed.
Experimental verification of shear analogy approach to predict bending stiffness for softwood and hardwood cross-laminated timber panels
Crovella, Paul (author) / Smith, William (author) / Bartczak, Jacek (author)
2019-09-05
Article (Journal)
Electronic Resource
English
Briefing: Experimental and theoretical bending stiffness of cross-laminated timber panels
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