Can Severe Plastic Deformation Tune Nanocrystallization in Fe-Based Metallic Glasses?
Monika AntoniFlorian SpieckermannNiklas PluttaChristoph GammerMarlene KappParthiban RamasamyChristian PolakReinhard PippanMichael J ZehetbauerJürgen EckertPublished in: Materials (Basel, Switzerland) (2023)
The effects of severe plastic deformation (SPD) by means of high-pressure torsion (HPT) on the structural properties of the two iron-based metallic glasses Fe 73.9 Cu 1 Nb 3 Si 15.5 B 6.6 and Fe 81.2 Co 4 Si 0.5 B 9.5 P 4 Cu 0.8 have been investigated and compared. While for Fe 73.9 Cu 1 Nb 3 Si 15.5 B 6.6 , HPT processing allows us to extend the known consolidation and deformation ranges, HPT processing of Fe 81.2 Co 4 Si 0.5 B 9.5 P 4 Cu 0.8 for the first time ever achieves consolidation and deformation with a minimum number of cracks. Using numerous analyses such as X-ray diffraction, dynamic mechanical analyses, and differential scanning calorimetry, as well as optical and transmission electron microscopy, clearly reveals that Fe 81.2 Co 4 Si 0.5 B 9.5 P 4 Cu 0.8 exhibits HPT-induced crystallization phenomena, while Fe 73.9 Cu 1 Nb 3 Si 15.5 B 6.6 does not crystallize even at the highest HPT-deformation degrees applied. The reasons for these findings are discussed in terms of differences in the deformation energies expended, and the number and composition of the individual crystalline phases formed. The results appear promising for obtaining improved magnetic properties of glassy alloys without additional thermal treatment.