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25.07.2016 | Symposium: New Steels for Applications under Extreme Conditions | Ausgabe 11/2016

Metallurgical and Materials Transactions A 11/2016

Alternative Fabrication Routes toward Oxide-Dispersion-Strengthened Steels and Model Alloys

Zeitschrift:
Metallurgical and Materials Transactions A > Ausgabe 11/2016
Autoren:
Frank Bergner, Isabell Hilger, Jouko Virta, Juha Lagerbom, Gunter Gerbeth, Sarah Connolly, Zuliang Hong, Patrick S. Grant, Thomas Weissgärber
Wichtige Hinweise
Manuscript submitted February 2, 2016

Abstract

The standard powder metallurgy (PM) route for the fabrication of oxide-dispersion-strengthened (ODS) steels involves gas atomization to produce a prealloyed powder, mechanical alloying (MA) with fine oxide powders, consolidation, and finally thermal/thermomechanical treatment (TMT). It is well established that ODS steels with superior property combinations, for example, creep and tensile strength, can be produced by this PM/MA route. However, the fabrication process is complex and expensive, and the fitness for scaling up to the industrial scale is limited. At the laboratory scale, production of small amounts of well-controlled model systems continues to be desirable for specific purposes, such as modeling-oriented experiments. Thus, from the laboratory to industrial application, there is growing interest in complementary or alternative fabrication routes for ODS steels and related model systems, which offer a different balance of cost, convenience, properties, and scalability. This article reviews the state of the art in ODS alloy fabrication and identifies promising new routes toward ODS steels. The PM/AM route for the fabrication of ODS steels is also described, as it is the current default process. Hybrid routes that comprise aspects of both the PM route and more radical liquid metal (LM) routes are suggested to be promising approaches for larger volumes and higher throughput of fabricated material. Although similar uniformity and refinement of the critical nanometer-sized oxide particles has not yet been demonstrated, ongoing innovations in the LM route are described, along with recent encouraging preliminary results for both extrinsic nano-oxide additions and intrinsic nano-oxide formation in variants of the LM route. Finally, physicochemical methods such as ion beam synthesis are shown to offer interesting perspectives for the fabrication of model systems. As well as literature sources, examples of progress in the authors’ groups are also highlighted.

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