Enhancing Lateral Integrity of a Prestressed Concrete Box-Girder Bridge without Transverse Diaphragms: A Study on Strengthening Methods

IF 1.8 4区 工程技术 Q3 ENGINEERING, CIVIL International Journal of Civil Engineering Pub Date : 2024-07-02 DOI:10.1007/s40999-024-01007-7
Peng Hou, Caiqian Yang, Peng Li, Yong Pan
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Abstract

This study established a finite element model to assess the impact of various transverse strengthening techniques on the Xiuzhen River Bridge, a prestressed concrete box-girder bridge. On-site experiments validated the effectiveness of the finite element model. Five different strengthening techniques, namely, adding steel or concrete diaphragms (ASD or ACD), adding composite truss (ACT), strengthening bridge deck (SBD), and setting transverse prestress (STP), were compared. The results demonstrated a significant reduction in the deflection of the bridge using these techniques. SBD technology exhibited the highest deflection reduction rate at 47.91%, and STP technology achieved a maximum reduction rate of 53.92% in the presence of initial bridge damage. In addition, these techniques notably improved the lateral integrity from the load distribution factor (LDF). However, relying solely on the LDF cannot discern the most effective strengthening method. Therefore, a combined LDF and Kullback–Leibler divergence method was proposed to comprehensively analyse the relative entropy (RE) between different models. The results highlighted that SBD technology significantly reduced the RE of the bridge by 82.94%. In the presence of initial damage, ACT technology demonstrated significant stability in reducing the RE, with a sensitivity of only 10.98%. For newly constructed bridges, SBD technology is notably effective; however, for existing bridges, ACT technology may be a reasonable choice. Additionally, an investigation of failure modes emphasized that all the models exhibit similar failure modes, with initial damage and the implementation of different techniques primarily affecting cracking and ultimate load rather than significantly altering the overall failure mode.

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增强无横隔梁预应力混凝土箱梁桥的横向完整性:加固方法研究
本研究建立了一个有限元模型,以评估各种横向加固技术对预应力混凝土箱梁桥修镇河大桥的影响。现场实验验证了有限元模型的有效性。实验比较了五种不同的加固技术,即增加钢或混凝土横隔梁(ASD 或 ACD)、增加复合桁架(ACT)、加固桥面(SBD)和设置横向预应力(STP)。结果表明,采用这些技术后,桥梁的挠度明显减小。SBD 技术的挠度减小率最高,达到 47.91%,而 STP 技术在桥梁出现初期损坏的情况下,挠度减小率最高,达到 53.92%。此外,这些技术还显著提高了荷载分布系数(LDF)的横向完整性。然而,仅仅依靠 LDF 无法确定最有效的加固方法。因此,我们提出了 LDF 和 Kullback-Leibler 发散法相结合的方法,以全面分析不同模型之间的相对熵 (RE)。结果表明,SBD 技术大大降低了桥梁的 RE,降幅达 82.94%。在存在初始损坏的情况下,ACT 技术在降低 RE 方面表现出明显的稳定性,灵敏度仅为 10.98%。对于新建桥梁,SBD 技术效果显著;但对于现有桥梁,ACT 技术可能是一个合理的选择。此外,对失效模式的调查强调,所有模型都表现出相似的失效模式,初始损伤和不同技术的实施主要影响开裂和极限荷载,而不是显著改变整体失效模式。
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来源期刊
CiteScore
3.90
自引率
5.90%
发文量
83
审稿时长
15 months
期刊介绍: International Journal of Civil Engineering, The official publication of Iranian Society of Civil Engineering and Iran University of Science and Technology is devoted to original and interdisciplinary, peer-reviewed papers on research related to the broad spectrum of civil engineering with similar emphasis on all topics.The journal provides a forum for the International Civil Engineering Community to present and discuss matters of major interest e.g. new developments in civil regulations, The topics are included but are not necessarily restricted to :- Structures- Geotechnics- Transportation- Environment- Earthquakes- Water Resources- Construction Engineering and Management, and New Materials.
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