Litcius/Paper detail

A high‐throughput strategy for rapid synthesis and characterization of Ni‐based superalloys

Lei Zhao, Su-Ran Liu, Liang Jiang, Lixia Yang, Lilong Zhu, Hui Wang, Wenyu Zhang, Zaiwang Huang, Yuanbin Deng, Christoph Broeckmann, Hailiang Huang, Haizhou Wang, Haizhou Wang, Haizhou Wang

2022Rare Metals30 citationsDOI

Abstract

Abstract This study developed a new high‐throughput strategy, designated as hot‐isostatic‐pressing‐based micro‐synthesis approach (HIP‐MSA), to optimize high‐performance nickel‐based superalloys in a rapid, efficient, and cost‐effective manner. A specific honeycomb‐array structure containing 106 discrete cells was designed and optimized using finite element analysis (FEA) and then applied to create a combinatorial library consisting of 106 Ni‐based superalloys with various Co, Nb and Ta concentrations. By integration with high‐throughput characterization tools, extensive composition and phase structure data were collected quickly and efficiently. In the superalloys with higher amounts of Nb and Ta, the detrimental η phase displaying needle‐like morphology was observed, and its content (wt%) increased drastically with Ta and Nb contents increasing. However, the increase of Co addition in those alloys was confirmed to be surprisingly beneficial by significantly suppressing the formation of η phase that was induced by high Nb and Ta contents. The zero‐phase‐fraction (ZPF) line of η phase was established, which is critical to design superalloy chemistry for superior microstructural stability at high‐temperature service conditions.

Topics & Concepts

SuperalloyMaterials scienceThroughputHoneycombCharacterization (materials science)Phase (matter)Hot isostatic pressingMicrostructureMetallurgyChemical engineeringNanotechnologyComposite materialComputer scienceChemistryTelecommunicationsWirelessEngineeringOrganic chemistryHigh Temperature Alloys and CreepMachine Learning in Materials ScienceAdvanced Materials Characterization Techniques
A high‐throughput strategy for rapid synthesis and characterization of Ni‐based superalloys | Litcius