Open Access Article
Advances in Constructional Engineering. 2025; 5: (6) ; 5-8 ; DOI: 10.12208/j.ace.2025000204.
Research on the theory and method of post-evaluation of preventive maintenance of concrete beam bridge
混凝土梁式桥预防养护后评价的理论与方法研究
作者:
邓嘉骏1 *,
范凌泰1,
吴杰1,
李后川2
1江苏扬子江高速通道管理有限公司 江苏南京
2江苏高速公路工程养护技术有限公司 江苏南京
*通讯作者:
邓嘉骏,单位:江苏扬子江高速通道管理有限公司 江苏南京; ;
发布时间: 2025-06-15 总浏览量: 69
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摘要
本文聚焦混凝土梁式桥,系统阐述了预防养护后评价的理论基础、框架及方法。论文采用物联网、计算机视觉、数字孪生等先进技术,提出AHP -熵权法组合赋权与灰色模糊综合评价的量化方法,构建了涵盖实施过程、长期效果的多层次后评价指标体系,实现了数据采集、病害识别、效果仿真的智能化,解决了传统后评价“数据不足、效率低下”的痛点。通过分析物联网、大数据及人工智能等先进技术在后评价中的应用前景,以期为提升我国混凝土梁式桥预防养护的精细化、智能化管养水平提供理论支撑。
关键词: 混凝土梁式桥;预防养护;后评价;指标体系
Abstract
This study focuses on concrete girder bridges and systematically elaborates on the theoretical basis, framework, and methods for post-evaluation of preventive maintenance. Integrating advanced technologies including the Internet of Things (IoT), computer vision, and digital twins, it proposes a quantitative evaluation method combining the AHP-entropy weight method with gray-fuzzy comprehensive evaluation, and establishes a multi-level post-evaluation index system encompassing both the implementation process and long-term effects. This achieves the intellectualization of data collection, disease identification, and effect simulation, addressing the "insufficient data and low efficiency" bottleneck in traditional post-evaluation. By analyzing the application prospects of advanced technologies such as IoT, big data, and artificial intelligence in post-evaluation, this study aims to provide theoretical support for enhancing the refined and intelligent management and maintenance level of preventive maintenance for concrete girder bridges in China.
Key words: Concrete beam bridge; Preventive maintenance; Post-evaluation; Index system
参考文献 References
[1] 王巍,张春霞,乔国栋. 基于灰色模糊综合评判的桥梁预防养护后评估体系研究[J]. 公路, 2014, 59 (01): 153-157.
[2] Fang Y, Sun L. Developing A Semi-Markov Process Model for Bridge Deterioration Prediction in Shanghai[J]. 2019, 11(19): 5524.
[3] Li L, et al. Deterioration Model for Reinforced Concrete Bridge Girders Based on Survival Analysis[J]. 2022, 10(23): 4436.
[4] Petcherdchoo A. Probabilistic model for single and multiple action costs in maintaining both condition and safety of deteriorating reinforced concrete bridges[J]. Case Studies in Construction Materials, 2023, 19, e02613:1-17.
[5] Frangopol D M. Bridge life-cycle performance and cost: analysis, prediction, optimisation and decision-making[J]. Structure and Infrastructure Engineering, 2017, 13(10), 1239-1257.
[6] 邓波. 南大梁高速桥梁预防性养护效果研究[J]. 运输经理世界, 2025, (15): 89-91.
[7] 贾永新. 桥梁伸缩缝锚固区混凝土预防性养护施工工艺研究[J]. 北方交通, 2025, (05): 6-8+13.
[8] 陈蚊文. 高速公路混凝土桥梁预防性养护加固措施研究[J]. 运输经理世界, 2025, (10): 130-132.
引用本文
邓嘉骏, 范凌泰, 吴杰, 李后川, 混凝土梁式桥预防养护后评价的理论与方法研究[J]. 建筑工程进展, 2025; 5: (6) : 5-8.