Stein, F.; Sauthoff, G.; Palm, M.: Experimental Determination of the Ternary Fe–Al–Zr Phase Diagram. Discussion Meeting on the Development of Innovative Iron Aluminium Alloys, Düsseldorf, Germany (2004)
Palm, M.; Sauthoff, G.: Manufacturing and Testing of a Novel Advanced NiAl-Base Alloy for Gas Turbine Applications. Materials for Advanced Power Engineering 2002 (Proc. 7th Liège Conference), Liege (2002)
Ducher, R.; Lacaze, J. C.; Stein, F.; Palm, M.: Experimental Study of the Liquidus Surface of the Al–Fe–Ti System. Thermodynamics of Alloys - TOFA 2002, Univerità degli Studi di Roma “La Sapienza”, Rome, Italy (2002)
Ducher, R.; Stein, F.; Palm, M.; Lacaze, J. C.: Nouvelle évaluation de la surface de liquidus du système ternaire Ti–Al–Fe. CPR “Intermetalliques base titane”, Seminar “Alliages TiAl”, Aspet, Haute-Garonne, France (2002)
Stein, F.; Palm, M.; Sauthoff, G.: New results on intermetallic phases, phase equilibria, and phase transformation temperatures in the Fe–Zr system. Materials Week 2000, München, Germany (2000)
Eumann, M.; Palm, M.; Sauthoff, G.: Constitution, Microstructure and Mechanical Properties of Ternary Fe–Al–Mo Alloys. EUROMAT 99, Munich, Germany (1999)
Palm, M.; Stein, F.: Phase Equilibria in the Al-rich part of the Al–Ti system. 2nd International Symposium on Gamma Titanium Aluminides, TMS Annual Meeting, San Diego, CA, USA (1999)
Palm, M.; Gorzel, A. H.; Letzig, D.; Sauthoff, G.: Structure and Mechanical Properties of Ti–Al–Fe Alloys at Ambient and High Temperatures. Structural Intermetallics 1997, Seven Springs, PA, USA (1997)
Palm, M.; Kainuma, R.; Inden, G.: Reinvestigation of Phase Equilibria in the Ti-rich Part of the Ti–Al System. Journées d´Automne 1996, Paris, France (1996)
Kainuma, R.; Palm, M.; Inden, G.: Experimentelle Untersuchungen der Hochtemperaturgleichgewichte im System Ti–Al. DGM Hauptversammlung 1993, Friedrichshafen, Germany (1993)
Palm, M.: Phase Equilibria and Phase Diagrams. Lecture: 4th MSIT Winter School on Materials Chemistry, Castle Ringberg, Tegernsee, February 16, 2020 - February 20, 2020
Palm, M.: Phase diagrams and phase transformations. Lecture: Education Seminar 5th International Workshop on Titanium Aluminides, Tokyo, Japan, August 28, 2016
International researcher team presents a novel microstructure design strategy for lean medium-manganese steels with optimized properties in the journal Science
The aim of the Additive micromanufacturing (AMMicro) project is to fabricate advanced multimaterial/multiphase MEMS devices with superior impact-resistance and self-damage sensing mechanisms.
TiAl-based alloys currently mature into application. Sufficient strength at high temperatures and ductility at ambient temperatures are crucial issues for these novel light-weight materials. By generation of two-phase lamellar TiAl + Ti3Al microstructures, these issues can be successfully solved. Because oxidation resistance at high temperatures is…
We will investigate the electrothermomechanical response of individual metallic nanowires as a function of microstructural interfaces from the growth processes. This will be accomplished using in situ SEM 4-point probe-based electrical resistivity measurements and 2-point probe-based impedance measurements, as a function of mechanical strain and…
Laser Powder Bed Fusion (LPBF) is the most commonly used Additive Manufacturing processes. One of its biggest advantages it offers is to exploit its inherent specific process characteristics, namely the decoupling the solidification rate from the parts´volume, for novel materials with superior physical and mechanical properties. One prominet…