Opportunities for bcc refractory-metal superalloys
Reinforcement with ordered intermetallic precipitates is a potent strategy for the development of strength alongside damage tolerance and is central to the success of fcc nickel-based superalloys. Such a strategy is equally of interest within bcc-based systems for their increased melting point and acceptable cost. However, only limited studies have been made on refractory metal (RM) or titanium based alloys strengthened by ordered-bcc precipitates (e.g. B2 or L21). Are such “bcc superalloys” possible? Do they offer useful properties?
In this talk, opportunities for refractory-metal-based superalloys systems will be discussed, including a review of Cr-Ni2AlTi, Mo-NiAl, Ta-(Ti,Zr)2Al(Mo,Nb) and Nb-Pd2HfAl systems together with newly developed alloys. These alloys exploit an extensive two-phase field that exists between A2 (RM,Ti) and B2 TiFe to produce nanoscale precipitate reinforced microstructures that increase strength by over 500 MPa.
This work was supported through EUROfusion Researcher Grant & EPSRC Doctoral Prize Fellowships, EPSRC ‘DARE’ (darealloys.org) EP/L025213/1 and Rolls-Royce/EPSRC Strategic Partnership EP/H022309/1 and EP/H500375/1.
Dr. Alexander (Sandy) Knowles, MEng, PhD, AFHEA
School of Metallurgy and Materials
Lecturer in Nuclear Materials
EUROfusion Researcher Grant Holder
University of Birmingham
Edgbaston
Birmingham B15 2T
UK
| Phone | +44 121 414 3449 |
| Dr. A. Knowles | |
| Http | Dr. A. Knowles |
| School of Metallurgy and Materials |