Hardenability and microstructural evolution of a precipitation strengthened Ni50Ti21Hf25Al4 alloy

Flavia da Cruz Gallo, Yang Yang, Eitan Hershkovitz, Monica Kapoor, Hunter B. Henderson, Michael S. Kesler, Honggyu Kim, Michele V. Manuel

Research output: Contribution to journalArticlepeer-review

Abstract

NiTi-based quaternary alloys are used in a variety of mechanical components, such as bearings, actuators, and dampers, owing to their good hardenability, wear resistance, and corrosion resistance. Additionally, one of the most notable characteristics of NiTi-based alloys is their shape memory effect and pseudoelastic properties. Connecting the macroscopic processing parameters employed in the design of new intermetallic alloys to the nanoscale structural characteristics dictating their behavior is crucial for improving their mechanical properties and expanding the spectrum of potential applications. In this work, an arc melted Ni50Ti21Hf25Al4 (at%) alloy was solution treated at 1050 °C followed by quenching and aging at 600 °C to investigate the effect of aging time on the microstructure and mechanical properties. Two types of nano-sized precipitates were observed and determined as face-centered orthorhombic H-phase (TiHf)Ni and L21 Heusler precipitates Ni2TiAl. The morphology and orientation of the H-phase were investigated using scanning and transmission electron microscopy (SEM and TEM), elucidating the coarsening kinetics and strengthening contribution of that phase to the intermetallic mechanical behavior. Following coarsening, the presence of Heusler nanoprecipitates was detected under overaged conditions through TEM imaging and nanobeam electron diffraction patterns. A peak hardness condition of 756 HV was achieved after 70 h of aging, indicating that the co-precipitation of H-phase and Heusler precipitates through a well-designed aging treatment can lead to optimal mechanical performance, thus elevating the alloy's potential as a viable material for industrial applications.

Original languageEnglish
Article number178088
JournalJournal of Alloys and Compounds
Volume1010
DOIs
StatePublished - Jan 5 2025

Keywords

  • H-phase precipitate
  • Heusler phase precipitate
  • Precipitation strengthening
  • Shape memory alloy
  • Transmission electron microscopy

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