Probing Phase Stability in CrMoNbV Using Cluster Expansion Method, Calphad Calculations and Experiments

When and Where

Dec 3, 2024
11:15am - 11:30am

Hynes, Level 2, Room 208

Presenter(s)

Siya Zhu

Amit Samanta

Jibril Shittu

Aurélien Perron

Chiraag Nataraj

Joel Berry

Joseph McKeown

Axel van de Walle

Co-Author(s)

Siya Zhu¹,Amit Samanta²,Jibril Shittu²,Aurélien Perron²,Chiraag Nataraj³,Joel Berry²,Joseph McKeown²,Axel van de Walle⁴

Texas A&M University¹,Lawrence Livermore National Laboratory²,Sandia National Laboratories³,Brown University⁴

Abstract

Siya Zhu¹,Amit Samanta²,Jibril Shittu²,Aurélien Perron²,Chiraag Nataraj³,Joel Berry²,Joseph McKeown²,Axel van de Walle⁴

Texas A&M University¹,Lawrence Livermore National Laboratory²,Sandia National Laboratories³,Brown University⁴

High entropy alloys (HEA), a novel class of materials with multiple principal elements, allow us to tune the properties within a wide composition range where the solid-solution phase is stable. However, it is difficult to experimentally determine the boundaries of the single-phase region. In this paper, we calculate the phase diagram of the CrMoNbV quaternary system, as well as its constituent binary and ternary subsystems, using a combination of the cluster expansion method and CALPHAD calculations. We further verify these results by carrying out experiments at two different compositions of the full quaternary system. Our work shows how these computational tools can enable efficient discovery and development of new HEAs.

Keywords

chemical composition | thermodynamics

Symposium Organizers

Daniel Gianola, University of California, Santa Barbara

Jiyun Kang, Stanford University

Eun Soo Park, Seoul National University

Cem Tasan, Massachusetts Institute of Technology

Session Chairs

Jiyun Kang

Katharine Page

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