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Combining thermodynamic modeling and 3D printing of elemental powder blends for high-throughput investigation of high-entropy alloys - towards rapid alloy screening and design

 
: Haase, C.; Tang, F.; Wilms, M.B.; Weisheit, A.; Hallstedt, B.

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Materials Science and Engineering, A. Structural materials, properties, microstructure and processing 688 (2017), S.180-189
ISSN: 0921-5093
ISSN: 1873-4936
Englisch
Zeitschriftenaufsatz
Fraunhofer ILT ()

Abstract
High-entropy alloys have gained high interest of both academia and industry in recent years due to their excellent properties and large variety of possible alloy systems. However, so far prediction of phase constitution and stability is based on empirical rules that can only be applied to selected alloy systems. In the current study, we introduce a methodology that enables high-throughput theoretical and experimental alloy screening and design. As a basis for thorough thermodynamic calculations, a new database was compiled for the Co–Cr–Fe–Mn–Ni system and used for Calphad and Scheil simulations. For bulk sample production, laser metal deposition (LMD) of an elemental powder blend was applied to build up the equiatomic CoCrFeMnNi Cantor alloy as a first demonstrator. This production approach allows high flexibility in varying the chemical composition and, thus, renders itself suitable for high-throughput alloy production. The microstructure, texture, and mechanical properties of the material processed were characterized using optical microscopy, EBSD, EDX, XRD, hardness and compression testing. The LMD-produced alloy revealed full density, strongly reduced segregation compared to conventionally cast material, pronounced texture, and excellent mechanical properties. Phase constitution and elemental distribution were correctly predicted by simulations. The applicability of the introduced methodology to high-entropy alloys and extension to compositionally complex alloys is discussed.

: http://publica.fraunhofer.de/dokumente/N-435607.html