Prediction of Internal Shear Capacity of Sugi CLT Panels

Journal of the Japan Wood Research Society Pub Date : 2014-01-01 DOI:10.2488/JWRS.60.169

M. Okabe, M. Yasumura, K. Kobayashi

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引用次数: 6

Abstract

Cross-laminated timber (CLT) panels consist of several layers of lumber stacked crosswise and glued together on their faces. CLT panels are excellently applicable for timber buildings as slabs for horizontal structural members. Live load and dead load on CLT panels cause internal shear stress. Distribution of internal shear stress in CLT panels is affected by the modulus of elasticity of parallel layers. Rolling shear stress occurs in cross layers under shear force applied to CLT panels. Generally rolling shear strength is lower than the shear strength parallel to the grain. Few data of rolling shear strength of lumber exist. Internal shear capacity of several types of CLT panels was predicted by calculating the distribution of internal shear stress from the experimental rolling shear strength of sugi lumber. To verify the calculated shear capacity of several types of CLT cross sections, asymmetric four-point bending tests were carried out. The experimental shear capacity was found to be 12% lower than the average value of the rolling shear strength model for the lumber of the shear zone and was 16% higher than the minimum value of rolling shear strength model.

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杉木CLT板内抗剪承载力预测

交叉层压木材(CLT)面板由几层木材横向堆叠并在其表面粘合在一起组成。CLT板非常适用于木结构建筑作为水平结构构件的板。活载和恒载对CLT面板造成内部剪应力。CLT板内剪应力的分布受平行层的弹性模量的影响。在施加于CLT板的剪切力作用下，交叉层产生滚动剪应力。一般轧制抗剪强度低于平行于晶粒的抗剪强度。关于木材滚剪强度的资料很少。利用杉木试验轧制抗剪强度计算内剪应力分布，预测了几种类型CLT板的内抗剪能力。为了验证几种类型CLT截面的抗剪承载力计算结果，进行了不对称四点弯曲试验。试验抗剪承载力比剪切带木材的滚动抗剪强度模型平均值低12%，比滚动抗剪强度模型最小值高16%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of the Japan Wood Research Society

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