de Oro Calderon, R., Gierl-Mayer, C., & Danninger, H. (2023). Microstructural evolution during sintering of Fe-Cr-C steels prepared from admixed elemental powders. Powder Metallurgy, 66(5), 450–460. https://doi.org/10.1080/00325899.2023.2201487
E164-03-1 - Forschungsgruppe Anorganische Werkstoffe E164-03-3 - Forschungsgruppe Pulvermetallurgie E164 - Institut für Chemische Technologien und Analytik E940 - TU Wien alumni club
In the upcoming years, a reduction in the use of critical elements, such as Ni and Cu, with unstable prices and high demand from the electromobility sector will become increasingly important for the PM-industry. Cr-alloyed sintered steels offer attractive properties at a moderate cost, but so far mostly Cr-prealloyed grades have been used. This work analyses the microstructural homogenisation process when Cr is introduced as admixed elemental powder. It is shown how–due to its high carbon affinity–Cr particles act as ‘internal carbon-getters’. There is an intermediate ‘heterogenization’ of the microstructure, i.e. the iron matrix is decarburised due to the formation of (Cr, Fe)-carbides. Final homogenisation depends on the formation of a transient liquid phase through the eutectic reaction between carbides and the iron matrix. Thus, the microstructure is not only sensitive to aspects such as sintering temperature or Cr-particle size but also to the heating rate and small variations in nominal carbon.