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With increasing demand and environmental concerns, researchers are exploring new materials that can perform as well or better than traditional materials while reducing environmental impact. X-ray absorption spectroscopy (XAS) enables unique atom-specific tool to probe the electronic structure of materials. The BAM plays a central role in this highly collaborative research. The BAMline, a real-life sample materials research beamline, at the Berlin Synchrotron BESSY-II, provides unique insights into materials’ electronic and chemical structure at different time and length scales. This enables real-time optimization of material properties and performance for various applications, such as energy storage and conversion, catalysis, and corrosion resistance. This talk provides an overview of the analytical methods and sample environments of the BAMline and addresses its potential for further advances in sustainable materials research.
Ziele der Jungen GfKORR
(2024)
Die Junge GfKORR soll ein attraktives Angebot für junge Leute sein, sich fachübergreifend zu vernetzen und einen Einstieg in Querschnittsthemen bieten. Sowohl der Korrosionsschutz zum Zwecke der Nachhaltigkeit und Sicherheit von Bauwerken als auch der Korrosionsschutz bei Energie- und Mobilitätssystemen soll in zukünftigen Veranstaltungen übergreifend betrachtet werden. Dabei wollen wir den fachlichen und informativen Input aus den Arbeitskreisen der GfKORR bei unseren Seminaren suchen. In diesem 1. Netzwerk- und Arbeitstreffen wurde die Fahrtrichtung der Jungen GfKORR genauer abgesteckt und es hat sich eine Leitungsebene gefunden. Weiter wollen wir ab 2024 interessante Präsenzveranstaltungen mit Exkursionen anbieten.
Die Anforderungen in verschiedenen Fachgebieten des Bauwesens an metallene Befestigungsmittels hinsichtlich des Korrosionsschutzes sind zum einen Abhängig von den verwendeten Werkstoffen und zum anderen von der Korrosivität in der jeweiligen Exposition. Hier wird ein Überblick über die gängigen Werkstoffe als auch Anwendung und Fehlerquellen verschaff
ISO 9223 standard for the classification of corrosivity in atmospheres is based on the mass loss of standard samples. We are concerned with the question of which corrosivity categories for Fe-sheets can be found at an offshore wind turbine and where they are comparable with our offshore locations.
The preliminary results indicate that the extreme corrosivity of class CX is only given in splash water-affected exposure, which is not a real atmospheric exposure condition. The results of the exposure at the SP show that the corrosivity category changes into C4, only a few meters above the splash water zone. Compared to the marine environments at Helgoland or OSS-Platform, the corrosivity is higher. The offshore environment is not as corrosive as originally expected, no atmospheric corrosion attack could be determined that would form the corrosivity category C5.
Often corrosion rates are determined to get an idea of the corrosivity of the atmosphere. The calculated mass loss does not reflect the ingress of metal ions into the environment. Therefore, the runoff project was started to determine the metal ion ingress with respect to rain events for zinc and copper.
Formation of Corrosion Product Layers on Galvanized Reinforcement in Chloride Containing Mortar
(2024)
To study a corrosion system such as galvanized steel in chloride containing mortars, more than just some electrochemical studies are required. The addition of chlorides by direct addition to the water will have an influence on the hardening process and consequently on the pore structure, and the investigation of these influences is necessary.
Furthermore, a new approach has been investigated which is able to determine the corrosion rate in less than 30 seconds without influencing the corrosion system by intense polarization.
To determine the corrosivity of atmospheric conditions, standardized metal sheets are exposed. After pickling, the loss of mass indicates the corrosivity of the atmospheric conditions. Under marine conditions, a sheltered opportunity will mirror the situation where e.g. chlorides could accumulate on the surface because they are protected from rain. Under these conditions, the corrosivity could be even higher than under free weather conditions. These sheltered conditions are necessary for a realistic service life prediction.
Electrochemical potential mapping is a recognized technique for the localization of corroding reinforcing steels. Areas of corroding reinforcement steel can be located in a non-destructive manner by means of this procedure. Half‐cell potential measurements are used in order to detect chloride‐induced corrosion. However, it is not recommended in order to assess the risk of carbonation‐induced corrosion. For this purpose, determining the carbonation depth and the concrete cover appears more appropriate. The content of this specification exclusively refers to the application of mobile, local variable reference electrodes, which are only placed on the concrete surface while measuring. The technique distinguishes itself thereby from the range of corrosion monitoring systems with stationary installed reference electrodes and sensor systems, respectively, whereby it is possible to continuously track measurements within the area of the installed electrodes. However, these methods are not dealt with in this specification.