面内荷载作用下交叉叠层工程竹板的弹性响应

IF 1.3 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

Proceedings of the Institution of Civil Engineers-Construction Materials Pub Date : 2019-11-11 DOI:10.1680/JCOMA.16.00080

H. Archila, A. Rhead, M. Ansell, P. Walker, J. Lizarazo-Marriaga

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引用次数: 3

摘要

新型的三层和五层交叉叠层竹板(G-XLam3和G-XLam5)沿着主(0°)和横向(90°)方向进行了压缩测试。分别采用线性变差动变压器(LVDT)和非接触式三维数字图像相关(DIC)测量技术测量弹性区域的变形，得到弹性模量EpC为0和EpC为90。利用lvdt获得的平均弹性模量值与分析预测值吻合良好。相比之下，DIC方法得到的弹性值要高得多，而且结果也很分散。例如，DIC和LVDT方法对G-XLam3和G-XLam5面板的EpC,0分别为17.22和15.67 GPa, 14.86和12.48 GPa。一般来说，G-XLam板的横截面厚度为类似交叉层压木材的五分之一，密度为其两倍，其EpC增加了约两倍，为0,EpC增加了约两倍。

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Elastic response of cross-laminated engineered bamboo panels subjected to in-plane loading

Novel cross-laminated bamboo panels comprising three and five layers (G-XLam3 and G-XLam5) were tested in compression along the main (0°) and the transverse (90°) directions. Linear variable differential transformer (LVDT) and non-contact three-dimensional digital image correlation (DIC) measuring techniques were used separately to measure deformation in the elastic region, and the elastic moduli, EpC,0 and EpC,90, were derived. Mean elastic modulus values obtained using LVDTs exhibited a good match with analytically predicted values. In contrast, the elastic values obtained by the DIC method were considerably higher and presented a considerable scatter of results. For instance, the EpC,0 for G-XLam3 and G-XLam5 panels were 17·22 and 15·67 GPa, and 14·86 and 12·48 GPa, using the DIC and LVDT methods, respectively. In general, G-XLam panels with a fifth of the cross-sectional thickness and twice the density of analogous cross-laminated timber exhibited an approximately two-fold increase in EpC,0 and EpC,90...

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来源期刊

Proceedings of the Institution of Civil Engineers-Construction Materials CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

3.80

自引率

0.00%

发文量