Tanja Pelzmann scite author profile

In recent years, a design concept for the stabilisation of the microstructure by addition of boron and nitrogen was developed. This so called martensitic boron-nitrogen strengthened steel (MARBN) combines boron strengthening by solid solution with precipitation strengthening by finely dispersed nitrides. Welded joints of MARBN steels showed no formation of a uniform fine grained region in the heat affected zone (HAZ) which is in general highly susceptible to Type IV cracking. In this work, the crossweld creep strength of a newly developed MARBN steel was analysed and the evolution of damage was investigated using synchrotron microtomography supported by electron microscopy. Three-dimensional (3D) reconstructions of the tested samples together with electron backscatter diffraction investigations revealed an intense void formation in a restricted area along small grains at prior austenite grain boundaries in the HAZ as the main reason for premature creep failures in the HAZ of welded joints.

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Airborne measurements enhancing the satellite-to-aircraft channel model in L-band

Pelzmann

Jost

Schwinzerl

et al. 2016

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Using airborne measurements to model the satellite-to-aircraft channel model at L-band

Jost

Pelzmann

Schwinzerl

et al. 2017

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Carbon fiber damage evolution under flame attack and the role of impurities

et al. 2022

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Carbon fibers (CFs) are prone to extensive oxidation under fire attack, for instance, in an aircraft fire scenario. This work addresses the damage mechanisms observed on polyacrylonitrile (PAN)-based CFs with different microstructure exposed to open flames. A fixed-point technique was developed to follow-up individual CFs by means of time-controlled insertion into premixed methane/air flames, followed by scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDS) analyses.Besides diameter reduction, three localized damage mechanisms were discerned in the presence of impurities, which were quantified by neutron activation analysis (NAA). Severe pitting was ascribed to catalytic oxidation mainly caused by alkali and alkaline earth metals. After an initial period where catalytic reactions between impurities and the carbon surface dominate, the flame stoichiometry governed the CF gasification process, with lean flames being much more aggressive than rich ones.A second mechanism, channeling, was caused by mobile metallic impurities. Some impurities showed an opposite effect, lowering reactivity and thus preventing further catalysis. Amorphous damage with a skin-peeling effect is believed to be the result of localized impurities at high concentrations and microstructural variations. Hindrance or synergistic effects between impurities are discussed. Finally, apparent axial pit growth rates were determined and compared with other carbonaceous materials, revealing a strong influence of impurities and the flame reactive atmosphere on CF oxidation.

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Tanja Pelzmann

Carbon fiber oxidation in combustion environments—Effect of flame chemistry and load on bundle failure

Investigation of creep damage in advanced martensitic chromium steel weldments using synchrotron X-ray micro-tomography and EBSD

Airborne measurements enhancing the satellite-to-aircraft channel model in L-band

Using airborne measurements to model the satellite-to-aircraft channel model at L-band

Carbon fiber damage evolution under flame attack and the role of impurities

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