Overview
ABSTRACT
High-entropy multi-component alloys derive from an innovative concept. These alloys represent a real breakthrough in metallurgy as they consist of several major concentrated elements. With a significant number of possible stable compositions, multi-component materials offer a vast microstructural diversity and also promising mechanical properties such as strength or toughness. This article deals with this new class of alloys and describes the underlying metallurgical and thermodynamic approach, together with the preparation processes, associated microstructures and mechanical properties. Industrial perspectives are also addressed.
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Read the articleAUTHORS
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Mathilde LAURENT-BROCQ: CNRS Research Associate - Université Paris Est, ICMPE (UMR 7182), CNRS, UPEC, Thiais, France
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Jean-Philippe COUZINIÉ: Senior lecturer at Université Paris-Est - Université Paris Est, ICMPE (UMR 7182), CNRS, UPEC, Thiais, France
INTRODUCTION
In metallurgy, the conventional alloy development strategy consists in selecting a majority element to meet the main constraint of the specifications, then adding minority elements, sometimes in significant numbers, to adjust the secondary properties. The main categories of metal alloys used in industry today are steels, i.e. alloys whose main element is iron, superalloys, whose main element is nickel, and also aluminum-based, titanium-based or copper-based alloys. Over the last few decades, composition adjustment and microstructure control have enabled a spectacular evolution in the diversity and performance of these materials. However, this approach seems to be reaching its limits. There are still areas in the property maps that are not occupied by any material, particularly for certain combinations of properties, such as mechanical strength and ductility. To achieve significant gains in properties, and thus fill the gaps in the property space, it would appear necessary to develop new material concepts. The research carried out on high-entropy alloys since 2004 is part of this approach. The aim of this article is to summarize the main knowledge already established on high entropy alloys (HEAs), but also to highlight the questions that remain open. To this end, the article is divided into six sections: (1) the discovery of high-entropy alloys and the resulting definitions, (2) the thermodynamic tools used to describe the stability of HEAs, (3) the main chemical compositions of HEAs and the specificities in terms of structure and microstructure, (4) the production methods already implemented, (5) the mechanical properties and the mechanisms that help to understand these properties, and (6) the outlook in terms of applications and research.
At the end of the article, readers will find a glossary of terms and a table of symbols and acronyms.
Key points
Field: Metallurgy and design of new alloys
Degree of technology diffusion: Emergence
Technologies involved : Elaboration processes, electron microscopy, mechanical testing
Applications: Structural materials for power generation, transport, etc.
Main French players :
Institut de Chimie et des Matériaux de Paris-Est, Université Paris Est, ICMPE (UMR 7182), CNRS, UPEC, 2-8 rue Henri Dunant, F-94320 Thiais France
Laboratoire des Sciences des Procédés et des Matériaux, Université Paris 13, Sorbonne Paris Cité, LSPM (UPR 3407) CNRS, 99 avenue JB Clément, 93430 Villetaneuse, France
Other players worldwide :
Materials Research Department and Center for Interface Dominated...
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KEYWORDS
mechanical properties | thermodynamic | metallic alloy design | strengthening
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High-entropy multi-component alloys
Bibliography
Events
International conference: ICHEM (International Conference on High Entropy Materials). First conference in November 2016, in Taiwan.
Symposiums at annual international conferences: TMS (The Minerals, Metals and Materials Society) annual meeting; Euromat (European Congress on Advanced Materials).
Directory
French academic laboratories and research centers (non-exhaustive list)
Institut de Chimie et des Matériaux de Paris-Est, Université Paris Est, ICMPE (UMR 7182), CNRS, UPEC, 2-8, rue Henri-Dunant, F-94320 Thiais, France.
Laboratoire des Sciences des Procédés et des Matériaux, Université Paris 13, Sorbonne Paris Cité, LSPM (UPR 3407) CNRS, 99, avenue JB Clément, 93430 Villetaneuse, France....
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