Verdachtsfall Spannungsrisskorrosion – Zustandsanalyse der Elbebrücke Bad Schandau Teil 1

IF 0.8 4区工程技术 Q4 CONSTRUCTION & BUILDING TECHNOLOGY

Beton- und Stahlbetonbau Pub Date : 2025-07-16 DOI:10.1002/best.202500038

Christina Fritsch M.Sc., Dr.-Ing. Oliver Mosig, Dr.-Ing. Steffen Müller, Dipl.-Ing. Andreas Gruner, Dr.-Ing. Gregor Schacht, Prof. Dr.-Ing. Steffen Marx

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Abstract

Potential stress corrosion cracking – condition assessment of the Elbe Bridge Bad Schandau Part 1: Special inspection, full closure and the path to reopening

The Elbe Bridge in Bad Schandau was constructed in the 1970s as an underslung girder bridge in reinforced concrete. Following the collapse of the Carola Bridge in Dresden, the Elbe Bridge—also considered susceptible to stress corrosion cracking—was subjected to a special inspection. Longitudinal and transverse cracks, as well as rust staining, were documented along the characteristic underslung tendon. As advanced damage due to stress corrosion cracking could not be ruled out, the bridge was fully closed, and a structure-specific damage analysis (OSA) was initiated. As part of the OSA, stepwise structural diagnostics, numerical verification and monitoring investigations were carried out. The results indicated signs of stress corrosion cracking and additional damage mechanisms, though only to a limited extent. Suspected causes were largely clarified or relativized with the aid of structural analysis. To detect future tendon or structural damage, a permanent monitoring system was developed and implemented. The applied methodology enabled a gradual rollback of compensatory measures. The Elbe Bridge Bad Schandau thus serves as an example for the assessment and management of existing bridges at risk of stress corrosion cracking.

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第1部分：对易北河大桥的分析

北尚道易北河大桥的潜在应力腐蚀裂缝状况评估第1部分：特殊检查、全封闭和重新开放的路径。北尚道易北河大桥建于20世纪70年代，是一座钢筋混凝土下吊梁桥。在德累斯顿的卡罗拉大桥坍塌之后，易北河大桥也被认为容易受到应力腐蚀开裂的影响，因此接受了特别检查。纵向和横向裂缝，以及锈斑，沿着特征的下吊肌腱记录。由于不能排除应力腐蚀开裂导致的严重损伤，桥梁被完全关闭，并启动了结构特异性损伤分析（OSA）。作为OSA的一部分，进行了逐步的结构诊断、数值验证和监测调查。结果表明应力腐蚀开裂的迹象和额外的损伤机制，尽管只是在有限的程度上。在结构分析的帮助下，可疑的原因在很大程度上得到了澄清或相对化。为了检测未来的肌腱或结构损伤，开发并实施了永久性监测系统。所采用的方法使补偿措施得以逐步撤销。因此，Bad Schandau易北河大桥为评估和管理存在应力腐蚀开裂风险的现有桥梁提供了一个例子。

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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来源期刊

Beton- und Stahlbetonbau 工程技术-材料科学：表征与测试

CiteScore

2.50

自引率

36.40%

发文量

168

审稿时长

6-12 weeks

期刊介绍： Beton- und Stahlbetonbau veröffentlicht anwendungsorientierte Beiträge zum gesamten Massivbau. Neueste wissenschaftliche Erkenntnisse, Themen aus der Baupraxis und anwendungsorientierte Beiträge über neue Normen, Vorschriften und Richtlinien machen Beton- und Stahlbetonbau zu einem unverzichtbaren Begleiter und einer der bedeutendsten Zeitschriften für den Bauingenieur, seit mehr als 100 Jahren. Mit Berichten über ausgeführte Projekte und Innovationen im Baugeschehen erhält der Ingenieur weitere praktische Hilfestellungen für seine tägliche Arbeit. Themenüberblick: Entwurf, Berechnung, Bemessung und Ausführung sämtlicher Konstruktionen aus Beton Instandsetzung und Betonerhaltung Bauwerkserhaltung und - instandsetzung Nachrechnung bestehender Brückenbauwerke Bauwerksüberwachung Bewehrungs- und Befestigungstechnik Entwicklungen der Baustoffe Spannbeton ausgeführte Projekte Normen.