Einfluss der Oberfläche und Festigkeit auf das Spannungsrisskorrosionsverhalten von Spannstählen

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

Beton- und Stahlbetonbau Pub Date : 2025-05-12 DOI:10.1002/best.202500009

Stefan Rappl M.Sc., Nico Maczionsek M.Sc., PD Dr.-Ing. habil. Kai Osterminski, Dipl.-Ing. Falk Meyer, Prof. Dr.-Ing. Michael Pohl

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Abstract

The role of surface condition and strength in stress corrosion cracking of prestressing steel

Numerous bridges in Germany are currently classified as “in need of reservation”. In these structures, not only reinforcing steel but also prestressing steel is used as reinforcement. The latter is particularly susceptible to stress corrosion cracking, a brittle material failure triggered by the ingress of hydrogen. To investigate the influencing factors, constant load tests (CLTs) were carried out on three different prestressing steel grades and examined using state of the art methods. The test program was divided into component testing, testing on prestressing steels as received, and material testing, testing on machined and polished test specimens made from prestressing steels. This procedure was used to identify the influence of the surface against stress corrosion cracking. Furthermore, it was found that higher strengths resulted in a decrease in service life. Treatment of the surface by polishing had a positive effect on the service life of the test, particularly in the case of low strength classes. By reducing the load by 10 %, a median increase in duration of 126 % was achieved at the same strength class. In notch stress analyses using finite element modeling on digital twins of prestressing steel, the influence of the surface condition was highlighted. Hydrogen analyses conducted following the constant load test showed an increase in diffusible hydrogen content with rising material strength in both component and material testing.

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应力和强度对应力腐蚀的影响

表面状况和强度在预应力钢应力腐蚀开裂中的作用德国目前有许多桥梁被列为“需要保留”。在这些结构中，不仅使用钢筋，而且还使用预应力钢作为钢筋。后者特别容易受到应力腐蚀开裂的影响，这是一种由氢气进入引发的脆性材料失效。为了研究影响因素，对三种不同预应力钢等级进行了恒载试验（clt），并使用最先进的方法进行了检验。试验程序分为组件试验，即对收到的预应力钢进行试验；材料试验，即对预应力钢加工和抛光试样进行试验。该程序用于确定表面对应力腐蚀开裂的影响。此外，还发现较高的强度会导致使用寿命的降低。通过抛光处理表面对测试的使用寿命有积极的影响，特别是在低强度等级的情况下。通过减少10%的载荷，在相同强度等级下，持续时间的中位数增加了126%。在预应力钢数字孪生体缺口应力有限元分析中，强调了表面条件对缺口应力的影响。恒载试验后进行的氢分析表明，在部件和材料试验中，随着材料强度的提高，扩散氢含量也在增加。

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.