Park, E.; Spiegel, M.: Effects of heat treatment on near surface elemental profiles of Fe–15Cr polycrystalline alloy. Corrosion Engineering, Science and Technology 40 (3), pp. 217 - 225 (2005)
Pöter, B.; Stein, F.; Wirth, R.; Spiegel, M.: Early stages of protective layer growth on binary iron aluminides. Zeitschrift für physikalische Chemie 219, pp. 1489 - 1503 (2005)
Parezanovic, I.; Poeter, B.; Spiegel, M.: B and N segregation on dual phase steel after annealing. Defect and Diffusion Forum 237 – 240, p. 934 - 934 (2005)
Parezanovic, I.; Spiegel, M.: Selective Oxidation and Surface Segregation in High Strength Steels during short term annealing in N2-H2 -Influence of B an surface chemistry. Steel Research Int. 76 (11), p. 832 - 832 (2005)
Park, E.; Hüning, B.; Spiegel, M.: Annealing of Fe–15Cr alloy in N2–5%H2 gas mixture: Effect of hydrogen concentration. Defect and Diffusion Forum 237-240, p. 928 - 928 (2005)
Park, E.; Hüning, B.; Spiegel, M.: Evolution of near-surface concentration profiles of Cr during annealing of Fe–15Cr polycrystalline alloy. Applied Surface Science 249 (1-4), pp. 127 - 138 (2005)
Pöter, B.; Parezanović, I.; Spiegel, M.: In-situ FE-SEM and EBSD Investigation on the Oxidation of Pure Iron. Mater. at High Temp. Proc. of Microscopy of Oxidation, pp. 9 - 18 (2005)
Cha, S. C.; Spiegel, M.: Fundamental studies on alkali chloride induced corrosion during combustion of biomass. Materials Science Forum 461–464, p. 1055 - 1055 (2004)
Grabke, H. J.; Spiegel, M.; Zahs, A.: Role of Alloying Elements and Carbides in the Chlorine-induced Corrosion of Steels and Alloys. Materials Research 7 (1), pp. 89 - 95 (2004)
Li, Y. S.; Spiegel, M.: Models describing the degradation of FeAl and NiAl alloys induced by ZnCl2/KCl melt at 400-450 °C. Corrosion Science 46, 8 (2004)
Parezanovic, I.; Spiegel, M.: Surface modification of various Fe-Si and Fe-Mn alloys by oxidation/reduction treatments. Surface Engineering 20, 2 (2004)
Parezanovic, I.; Strauch, E.; Spiegel, M.: Development of spinel forming alloys with improved electronic conductivity for MCFC application. Journal of Power Sources 135, pp. 52 - 61 (2004)
Ruh, A.; Spiegel, M.: Kinetic investigations on salt melt induced high temperature corrosion of pure metals. Materials Science Forum 461-464, pp. 61 - 68 (2004)
International researcher team presents a novel microstructure design strategy for lean medium-manganese steels with optimized properties in the journal Science
In this project, we investigate a high angle grain boundary in elemental copper on the atomic scale which shows an alternating pattern of two different grain boundary phases. This work provides unprecedented views into the intrinsic mechanisms of GB phase transitions in simple elemental metals and opens entirely novel possibilities to kinetically engineer interfacial properties.
About 90% of all mechanical service failures are caused by fatigue. Avoiding fatigue failure requires addressing the wide knowledge gap regarding the micromechanical processes governing damage under cyclic loading, which may be fundamentally different from that under static loading. This is particularly true for deformation-induced martensitic…
Copper is widely used in micro- and nanoelectronics devices as interconnects and conductive layers due to good electric and mechanical properties. But especially the mechanical properties degrade significantly at elevated temperatures during operating conditions due to segregation of contamination elements to the grain boundaries where they cause…
The full potential of energy materials can only be exploited if the interplay between mechanics and chemistry at the interfaces is well known. This leads to more sustainable and efficient energy solutions.
In this project we work on correlative atomic structural and compositional investigations on Co and CoNi-based superalloys as a part of SFB/Transregio 103 project “Superalloy Single Crystals”. The task is to image the boron segregation at grain boundaries in the Co-9Al-9W-0.005B alloy.
This project deals with the phase quantification by nanoindentation and electron back scattered diffraction (EBSD), as well as a detailed analysis of the micromechanical compression behaviour, to understand deformation processes within an industrial produced complex bainitic microstructure.