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| Home > Publications database > Influence of Steam Atmosphere on theCcrack Propagation Behavior of a 9–12% Cr Ferritic/Martensitic Steel at Temperatures from 300 °C to 600 °C Depending on Frequency and Hold Time |
| Home > Publications database > Influence of Steam Atmosphere on theCcrack Propagation Behavior of a 9–12% Cr Ferritic/Martensitic Steel at Temperatures from 300 °C to 600 °C Depending on Frequency and Hold Time |
| Journal Article | FZJ-2018-05858 |
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2019
Elsevier
Oxford
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Please use a persistent id in citations: http://hdl.handle.net/2128/24796 doi:10.1016/j.ijfatigue.2018.09.012
Abstract: This paper deals with the influence of steam atmosphere on the crack propagation behavior in the ferritic/martensitic steel X20CrMoV12-1 depending on frequency (or hold time) and temperature with a focus on the temperature range from 300 °C to 600 °C, which is most important for flexibly operated power plants. Modern conventional power plants must be able to compensate fluctuations in residual load, caused by renewable energy sources. This results in higher numbers of start-up and shut-down cycles and therefore in more damaging loading scenarios than in the past. Due to the ever shorter operating time at constant high temperature, the importance of creep damage decreases, while fatigue damage gains in importance. Furthermore probable interactions of fatigue damage and steam atmosphere have to be considered. For this reason the influence of steam on the crack propagation behavior in X20 was investigated in detail. Steam oxidation strongly depends on temperature and time, i.e. on fatigue testing frequency and temperature. The effect of steam on crack propagation behavior was found to be not generally detrimental (for R = 0.1). Experiments with 3.33 × 10−3 Hz (300 s hold time) in the temperature range from 400 °C to 550 °C yielded significantly higher ΔK values to start crack propagation in comparison to experiments performed in air. In the temperature range from 300 °C to 550 °C the crack growth rate under steam atmosphere in the worst case corresponds to that measured in air, while in the best case it was found to be lower. Generally crack propagation in steam atmosphere was found to be accelerated at increased testing frequency (5 Hz, 20 Hz) starting from 500 °C up to higher temperature.
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