Experimental and numerical determination of the screw deformation in laminated beech veneer lumber as a result of moisture-induced swelling

Daniela Gerstorfer, Thomas Forte, Josef Füssl
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Abstract

The strong hygroscopic behavior of wood can lead to severe moisture-induced swelling deformations, especially perpendicular to the grain direction. Fully threaded screws arranged in this direction can be used as reinforcement and to constrain those deformations. Depending on the wood moisture content increase, tensile stresses in the screws and compression stresses in the surrounding solid wood evolve. A sufficiently accurate prediction of the maximum stresses occurring is important for reliable structural designs. For this reason, moisture-induced swelling experiments for two different configurations of screw diameter and specimen dimensions were performed within this work. Due to its homogeneity and its high swelling rate perpendicular to the grain, beech laminated veneer lumber (LVL) was used. A moisture content increase from oven-dry to about 7% led to screw tensile stresses in the magnitude of the yield strength and to highly nonlinear effects in the surrounding wood material. By means of a two-dimensional finite-element-based numerical simulation model, taking into account orthotropic plasticity and moisture-dependent material properties, the experiments could be simulated with high accuracy. The numerical results agree well with experimental observations. Based on a small parameter study, new insights into the complex interaction behavior between beech LVL and fully threaded screws could be gained.

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湿胀引起的山毛榉胶合板螺旋变形的实验和数值测定
木材的强吸湿性可以导致严重的湿气引起的膨胀变形,特别是垂直于纹理方向。按此方向排列的全螺纹螺钉可以用作加固和约束这些变形。随着木材含水率的增加,螺钉中的拉应力和周围实木中的压缩应力会发生变化。一个足够准确的最大应力预测对于可靠的结构设计是很重要的。为此,本研究对螺杆直径和试件尺寸两种不同配置进行了湿致膨胀实验。由于其均匀性和垂直于纹理的高膨胀率,采用了山毛榉层压单板木材。水分含量从烘箱干燥增加到7%左右会导致屈服强度大小的螺旋拉伸应力和周围木材材料的高度非线性效应。采用基于二维有限元的数值模拟模型,考虑材料的正交各向异性塑性和水分依赖特性,可以对试验进行高精度的模拟。数值结果与实验结果吻合较好。基于小参数研究,可以获得山毛榉LVL与全螺纹螺钉之间复杂相互作用行为的新见解。
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