网格单元胶合木穹顶试验分析

A. Gilodo, A.M. Arsiriy, Yuliia Somina, I.S. Oliynyk
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引用次数: 0

摘要

为了研究直径为4m的网格穹顶模型的应力-应变状态,制备了一系列胶合木棒进行中心压缩试验。这些试验是在金属、木材和塑料结构系的实验室进行的。通过电阻应变传感器的变形,确定了元件在不同点处的应力。棱柱形试样的特征是在支撑区以万向接头位置孔的形式存在应力集中物[3]。模型的显著尺寸使得可以将比例因子对所得结果的影响降至最低。研究的总体结论应考虑试件的高承载能力。样品的破坏发生在支撑区,因为木材被压碎。研究的下一个任务将是优化单元尺寸和测试圆顶模型。构件的横截面,除了提供承载能力外,还受到需要获得外壳的某些热工特性的影响,即圆顶构件必须具有允许在其平面上放置一层有效隔热层的尺寸。另一个单独的任务是屋顶的选择,它可以被认为是支撑系统上永久负荷的一部分,或者作为一个连续的外壳来解开框架
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EXPERIMENTAL ANALYSIS OF MESH ELEMENTS GLULAM DOME
To study the stress-strain state of the mesh dome model with the diameter 4 m, the series of glulam rods were prepared for the central compression test. The tests were carried out in the laboratory of the Department of Metal, Wooden and Plastic Structures. The stresses at the distinguished points of the elements were determined through the deformations using the resistance strain sensors. The feature of prismatic samples was the presence of stress concentrators in the support zones in the form of the holes for the location of universal connectors [3]. The significant sizes of the model made it possible to minimize the influence of the scaling factor on the obtained results. The general conclusion of the study should be considered high bearing capacity of the tested samples. The destruction of the samples took place in the support zone due to the crushing of the wood. The next tasks of the research will be the optimization of the elements sizes and testing of the dome model. The cross-section of the elements, in addition to providing the load-bearing capacity, is affected by the need to obtain certain thermotechnical characteristics of the enclosure, i.e. the elements of the dome must have the dimensions that allow placing a layer of effective insulation in their plane. A separate task is the selection of the roof, which can be considered exclusively as a part of the permanent load on the supporting system, or as a continuous shell that unfastens the frame
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