Raabe, D.: Recent Advances in Crystal Mechanics and Chitin Composites. Physics Colloquium at the Physics Department of the Technical University Dresden, Dresden, Germany (2006)
Godara, A.; Raabe, D.: Strain localization and microstructure evolution during plastic deformation of fiber reinforced polymer composites investigated by digital image correlation. Department Seminar, MPIE, Düsseldorf (Germany) (2006)
Bastos, A.; Zaefferer, S.; Raabe, D.: Orientation microscopy on electrodeposited samples. 13th Conference and Workshop on Electron Backscatter Diffraction, Oxford, UK (2006)
Raabe, D.: Advances in Constitutive Modeling in Crystal Plasticity FEM. Colloquium Lecture at the Department for Aeronautics at the Massachusetts Institute of Technology, Cambridge, USA (2006)
Godara, A.; Raabe, D.: Micromechanical behavior of thermoplastic matrix composites by digital image correlation. SAMPE Europe - Society for the Advancement of Material and Process Engineering (SAMPE 2006), Paris (2006)
Roters, F.; Ma, A.; Zaafarani, N.; Raabe, D.: Crystal plasticity FEM modeling at large scales and at small scales. GAMM annual meeting, Berlin, Germany (2006)
Zaafarani, N.; Raabe, D.; Singh, R. N.; Roters, F.: Three dimensional investigation of the texture and microstructure below a nanoindent in a Cu single crystal using 3D EBSD and crystal plasticity finite element simulations. DPG Frühjahrstagung, Dresden, Germany (2006)
Bastos, A.; Zaefferer, S.; Raabe, D.: Characterization of microstructure and Texture of nanostructure electrodeposited NiCo samples by use of Electron Backscatter Diffraction (EBSD). DPG – Spring meeting, Dresden, Germany (2006)
Romano, P.; Barani, A.; Ponge, D.; Raabe, D.: Design of High-Strength Steels by microalloying and thermomechanical treatment. TMS 2006, San Antonio, TX, USA (2006)
Godara, A.; Raabe, D.: Influence of sterilization on the microscopic strain localization in carbon fiber reinforced PEEK composites for bone-implant applications investigated by digital image correlation. MRS Fall Meeting, Boston, MA, USA (2006)
Raabe, D.: Neues aus der Eisenzeit - Simulationen und Experimente in der Kristallmechanik und frischer Hummer. Lise-Meitner-Kolloquium, Hahn-Meitner-Institut (HMI), Berlin, Germany (2005)
Raabe, D.: Integrative Werkstoffmodellierung. Finalizing Conference of Sonderforschungsbereich SFB 370, together with an international Konferenz “Integral Materials Modeling”, Aachen, Germany (2005)
Hydrogen in aluminium can cause embrittlement and critical failure. However, the behaviour of hydrogen in aluminium was not yet understood. Scientists at the Max-Planck-Institut für Eisenforschung were able to locate hydrogen inside aluminium’s microstructure and designed strategies to trap the hydrogen atoms inside the microstructure. This can…
The project aims to study corrosion, a detrimental process with an enormous impact on global economy, by combining denstiy-functional theory calculations with thermodynamic concepts.
Hydrogen embrittlement affects high-strength ferrite/martensite dual-phase (DP) steels. The associated micromechanisms which lead to failure have not been fully clarified yet. Here we present a quantitative micromechanical analysis of the microstructural damage phenomena in a model DP steel in the presence of hydrogen.
This project will aim at developing MEMS based nanoforce sensors with capacitive sensing capabilities. The nanoforce sensors will be further incorporated with in situ SEM and TEM small scale testing systems, for allowing simultaneous visualization of the deformation process during mechanical tests
Nickel-based alloys are a particularly interesting class of materials due to their specific properties such as high-temperature strength, low-temperature ductility and toughness, oxidation resistance, hot-corrosion resistance, and weldability, becoming potential candidates for high-performance components that require corrosion resistance and good…
Understanding hydrogen-assisted embrittlement of advanced structural materials is essential for enabling future hydrogen-based energy industries. A crucially important phenomenon in this context is the delayed fracture in high-strength structural materials. Factors affecting the hydrogen embrittlement are the hydrogen content,...
Thermo-chemo-mechanical interactions due to thermally activated and/or mechanically induced processes govern the constitutive behaviour of metallic alloys during production and in service. Understanding these mechanisms and their influence on the material behaviour is of very high relevance for designing new alloys and corresponding…
Within this project, we will investigate the micromechanical properties of STO materials with low and higher content of dislocations at a wide range of strain rates (0.001/s-1000/s). Oxide ceramics have increasing importance as superconductors and their dislocation-based electrical functionalities that will affect these electrical properties. Hence…