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Sulfur bearing Ti-based bulk metallic glasses for the Laser Powder Bed Fusion of metals

Subject Area Materials in Sintering Processes and Generative Manufacturing Processes
Thermodynamics and Kinetics as well as Properties of Phases and Microstructure of Materials
Term since 2022
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 503259970
 
Additive manufacturing of bulk metallic glasses (BMGs) has recently emerged as a viable method. Especially laser powder bed fusion (PBF-LB/M) was established as a promising technique to overcome the limitations in size and complexity during the fabrication of BMGs. In comparison to crystalline alloys, BMGs feature exceptional large elastic limits of about 2 % combined with high strength and hardness. Their properties profile renders them as potential candidates for disruptive material substitutions in highly stressed applications. The recently discovered sulfur-bearing TiZrCuS alloys offer high corrosion resistance and almost twice the strength of Ti6Al4V. However, their small critical casting thickness of about 1 mm is on the edge of the definition of a bulk metallic glass (1 mm or more). This effectively disqualifies conventional casting processes of this alloy as a functional production route for a broad spectrum of applications. Yet, TiZrCuS alloys feature a respectable thermal stability against crystallization in the low-temperature supercooled liquid region. This makes the system robust against crystallization under cyclic thermal exposure, as present during PBF-LB/M. However, large amounts of oxygen impurities and limited knowledge about the thermal history challenge the amorphous vitrification during PBF-LB/M. In this matter, the project aims to investigate the laser-material interaction during PBF-LB/M processing of Ti60Zr15Cu17S8. A thorough investigation of the thermal profiles and history during the transient laser-material interaction via high-speed imaging, ratio-pyrometry, and FEM simulations will be conducted in view of the resulting thermodynamic, structural, and technological properties of the manufactured samples.
DFG Programme Research Grants
 
 

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