预制预应力混凝土NEXT梁桥的剪切设计:关键评估

Pub Date : 2022-09-28 DOI:10.3233/brs-220198
Jianwei Huang
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引用次数: 0

摘要

东北极端三通(NEXT)预制预应力混凝土梁最近成为一种有希望的解决方案,以加速桥梁建设和提高桥梁的可持续性。迄今为止,已有几篇关于NEXT F梁桥弯矩和剪力的活载分配系数(LLDF)的研究报道,表明使用AASHTO LRFD LLDF作为NEXT F梁桥的弯矩可以提供足够的安全裕度;然而,为了保证剪切设计的安全性,建议将LRFD LLDF增加20%。本文旨在通过使用LRFD LLDF的剪切系数为1.2来研究NEXT F梁桥所需的横向剪切钢筋。综合考虑混凝土强度、梁截面、桥梁截面、跨长等参数进行综合研究。研究结果表明,提供最小横向抗剪配筋可以为NEXT F梁桥的抗剪设计提供足够的安全裕度,即使在LRFD LLDF上增加20%的抗剪配筋。建议LRFD LLDF的剪切系数为1.2,以确保NEXT F梁桥的安全设计,尽管最小横向钢筋可能会控制剪切设计。
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Shear design of precast prestressed concrete NEXT beam bridges: A critical assessment
Northeast extreme tee (NEXT) precast prestressed concrete beams have recently emerged as a promising solution to accelerate bridge construction and enhance the sustainability of bridges. To date, several studies on the live load distribution factor (LLDF) for moment and shear in NEXT F beam bridges have been reported, which indicated that using the AASHTO LRFD LLDF for moment in NEXT F beam bridges could provide a sufficient safety margin; however, a 20% increase in the LRFD LLDF for shear was recommended for the safety of shear design. This paper intended to investigate the required transverse shear reinforcements in NEXT F beam bridges by using a factor of 1.2 for the LRFD LLDF for shear. A comprehensive study was carried out by considering various parameters, including concrete strength, beam section, bridge section, and span length. Results from this study showed that providing the minimum transverse shear reinforcement could offer a sufficient safety margin for the shear design of NEXT F beam bridges, even with an increase of 20% on the LRFD LLDF for shear. It is recommended that a factor of 1.2 be used for the LRFD LLDF for shear to ensure a safe design of NEXT F beam bridges, though the minimum transverse reinforcements will be likely to control the shear design.
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