Raabe, D.: Polycrystal Mechanics of Metals and Polymers - Experiments and Theory. Colloquium Lecture at the Massachusetts Institute of Technology, Cambridge, USA (2003)
Wang, Y.; Roters, F.; Raabe, D.: Simulation of Texture and Anisotropy during Metal Forming with Respect to Scaling Aspects. 1st Colloquium Process Scaling, Bremen, Germany (2003)
Raabe, D.: Simulation of Texture and Anisotropy during Metal Forming with Respect to Scaling Aspects. Lecture at the 1st Colloquium on Process Scaling, Bremen (2003)
Raabe, D.: Experiments and Theory of Surface- and Polycrystal Mechanics. Colloquium Lecture at the Technical University of Hamburg-Harburg, Hamburg-Harburg (2003)
Kobayashi, S.; Zaefferer, S.; Schneider, A.; Raabe, D.; Frommeyer, G.: Slip system determination by rolling texture measurements around the strength peak temperature in a Fe3Al-based alloy. Intern. Conf. on Strength of Materials (ICSMA 13), Budapest, Hungary (2003)
Raabe, D.: Experimental and Theoretical Investigation of Grain Scale Plasticity. Colloquium lecture at the Department of Materials Science and Engineering of Northwestern University, Evanston, Chicago, USA (2002)
Raabe, D.; Helming, K.; Roters, F.; Zhao, Z.; Hirsch, J.: A Texture Component Crystal Plasticity Finite Element Method for Scalable Large Strain Anisotropy Simulations. ICOTOM 13, Seoul, South Korea (2002)
Scientists of the Max-Planck-Institut für Eisenforschung pioneer new machine learning model for corrosion-resistant alloy design. Their results are now published in the journal Science Advances
New product development in the steel industry nowadays requires faster development of the new alloys with increased complexity. Moreover, for these complex new steel grades, it is more challenging to control their properties during the process chain. This leads to more experimental testing, more plant trials and also higher rejections due to…
Electron channelling contrast imaging (ECCI) is a powerful technique for observation of extended crystal lattice defects (e.g. dislocations, stacking faults) with almost transmission electron microscopy (TEM) like appearance but on bulk samples in the scanning electron microscope (SEM).
Water electrolysis has the potential to become the major technology for the production of the high amount of green hydrogen that is necessary for its widespread application in a decarbonized economy. The bottleneck of this electrochemical reaction is the anodic partial reaction, the oxygen evolution reaction (OER), which is sluggish and hence…