落塔试验对梁结构响应的影响

Lena Leicht, Birgit Beckmann, Manfred Curbach
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引用次数: 2

摘要

通过对梁试件进行落塔试验,研究不同几何特征和不同加载速度对梁响应的影响。测试的几何特征是箍筋除纵向钢筋外,还有缺口。目标是量化在整体行为和应变和应变率的量在不同位置的钢筋测量的差异。这使我们对沿钢筋的应变分布有了深入的了解,由此可以推导出粘结应力。可以这样说,箍筋加固使试件保持在一起,从而增加了抗冲击性。这可以从挠度和加速度测量中看出,但也可以从应变测量中看出,特别是观察残余应变。试件整体弯曲对最大应变的影响大于局部冲孔锥的形成,而局部冲孔锥是主要的破坏模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Influences on the structural response of beams in drop tower experiments

Influences on the structural response of beams in drop tower experiments

Drop tower tests on beam specimens were carried out to evaluate the influence of different geometric features and different loading velocities on the beams' response. Tested geometric characteristics are stirrup reinforcement in addition to longitudinal reinforcement, and notches. The goal is to quantify the differences in the global behavior and the amount of strains and strain rates measured at different positions on the reinforcement. This gives an insight into strain distributions along the rebars from which bond stresses can be derived. It can be stated that stirrup reinforcement kept the specimens together and thus increased the impact resistance. That was seen in the deflection and acceleration measurements, but it was also suggested by strain measurements, especially looking at residual strains. The maximum strains are generally more affected by global bending of the specimens than by the formation of a localized punching cone, which was the main failure mode.

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