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High entropy alloys (HEA) are a new class of materials. In contrast to conventional alloys, HEA are single-phase alloys with at least five alloying elements. HEAs have enormous application potential due to (postulated) excellent structural property combinations from low to high temperatures. For HEA-application as structural materials in real components, a key issue is the suitability for joining processing. Requirements for the reliable and safe joining of these materials are crucial regarding economical component manufacture for future applications. In this context, friction stir welding (FSW) is a promising joining process due to the welding process temperature below the material melting point avoiding major issues, e. g. formation of (hard and brittle) intermetallic phases, which may have detrimental influences on the weld joint properties.
This study presents elementary research about the FSW process influences on a CoCrFeMnNi-HEA with focus on the microstructure and mechanical properties. For that purpose, the FSW joint of the HEA is compared to that of an austenitic stainless steel AISI 304. The microstructures of the welds were investigated and characterized by means of light microscopy, SEM, EBSD and XRD. Hardness and tensile testing were applied to determine influences on the mechanical properties. Generally, a comparable weldability of HEA and AISI 304 in terms of metallurgical characteristics and resulting mechanical properties exhibited. For the weld joints of both materials typical characteristics regarding FSW were observed within the weld metal and thermo-mechanically influenced zone: fine-grained stirred zone with increased hardness and reduced fracture elongation compared with the respective base material.
Multi-element systems with defined entropy (HEA - High Entropy Alloy or MEA - Medium Entropy Alloy) are rather new material concepts that are becoming increasingly important in materials research and development. Some HEA systems show significantly improved properties or combinations of properties, e.g., the overcome of the trade-off between high strength and ductility. Thus, the synthesis, the resulting microstructures, and properties of HEA have been primarily investigated so far. In addition, processing is crucial to achieve a transfer of potential HEA/MEA materials to real applications, e.g. highly stressed components. Since fusion welding is the most important joining process for metals, it is of vital importance to investigate the weldability of these materials. However, this has rarely been the subject of research up to date. For that reason, in this work the weldability depending on the surface preparation of a CoCrFeMnNi-HEA and a CoCrNi-MEA for TIG welding is investigated. The fusion welding of longer plates is described here for the first time for the CoCrNi alloy. The welds of both materials showed distinct formation of cracks in the heat affected zone (HAZ). Optical and scanning electron microscopy analysis clearly confirmed an intergranular fracture topography. But based on the results, the crack mechanism cannot be conclusively clarified as either a liquid metal embrittlement (LME) or hot cracking like liquid film separation occurred.
High entropy alloys are a new class of materials. In order to transfer their use to real components, their machinability must be investigated. For this purpose, preliminary investigations were carried out on samples from the TU Chemnitz in order to apply for a joint project based on these investigations.