Experimental testing of reinforced end-notched glulam beams

M. Todorović, B. Stevanović, Ivan Glišović, T. Stevanović
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引用次数: 1

Abstract

Notches made at the ends of timber beams significantly decrease load carrying capacity of a structural member. This paper presents an experimental research on bending behaviour of end-notched glulam beams, with and without reinforcement. Screws for timber were used as reinforcement, positioned at angles of 90° and 45° to the longitudinal beam axis. The unreinforced beams failed due to crack opening and its propagation in a brittle manner. Cracks that appeared in the notch details resulted from combined excessive tensile stresses perpendicular to grain and shear stresses. This study shows that reinforcing the beams at the notched ends can improve their load carrying capacity and deformability. However, applied screws did not help the beams achieve ductile failure in bending. The shear failure was dominant failure mechanism for reinforced beams. In addition, analytical calculations were performed in accordance with Eurocode 5 so as to compare the results with experimental research.
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端部补强缺口胶合木梁的试验研究
木梁两端的缺口会显著降低结构构件的承载能力。本文对端缺口胶合木梁在加筋和不加筋情况下的弯曲性能进行了试验研究。木材螺丝用作加固,与纵梁轴线成90°和45°角。未加筋梁的破坏主要是由于裂缝的张开和裂纹的脆性扩展。缺口细节处出现的裂缝是垂直于晶粒的过度拉应力和剪切应力共同作用的结果。研究表明,在缺口端对梁进行加固可以提高梁的承载能力和变形能力。然而,施加螺钉并没有帮助梁在弯曲时实现延性破坏。剪力破坏是加筋梁的主要破坏机制。此外,根据欧洲规范5进行了分析计算,以便与实验研究结果进行比较。
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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自引率
25.00%
发文量
4
审稿时长
4 weeks
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