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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Thermodynamics and Kinetics of Alloys IV

Presentation Title

CALPHAD-informed Machine Learning Models for Materials Property Prediction

Author(s)

Andrew Jordan, Zaif Mohammed, Qiaofu Zhang

On-Site Speaker (Planned)

Qiaofu Zhang

Abstract Scope

Machine learning (ML) has been demonstrated as an effective tool for predicting materials microstructure and behavior. In this work, we present a physics-informed approach that integrates CALPHAD (CALculation of PHAse Diagrams) simulations with ML models to enhance predictive accuracy for critical materials properties. CALPHAD-derived thermodynamic and microstructural features serve as meaningful inputs, capturing complex phase and composition-dependent phenomena. Two case studies demonstrate the effectiveness of this framework: (1) creep rupture life prediction for Ni-based superalloys and (2) hot cracking susceptibility prediction for alloys printed by additive manufacturing (AM). In the first case, the integration of CALPHAD features with alloy composition and loading conditions enables reliable lifetime predictions. In the second, a Hot Cracking Susceptibility Index (HCSI) is developed using Scheil-based simulations combined with ML. Both cases demonstrated the value of CALPHAD-informed ML models in improving predictive performance and establishing a generalizable strategy for ICME model development.

Proceedings Inclusion?

Planned:

Keywords

ICME, Machine Learning, Additive Manufacturing

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

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A Data Science Approach to the Design of Compositionally Graded Alloys

Accurate simulations of crystalline and quasicrystalline alloys with machine learning interatomic potentials

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Advances in CALPHAD Modeling of Thermodynamics and Other Properties

Alloy Phase Stability upon Electric Current Stressing

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CALPHAD assessment of Fe-B-C ternary alloys: addressing boride formation and metatectic reactions via improved solid solution modeling

Comparing the Melting Entropy and Latent Heat of Binary Alloys and Their Components

Completely bypassing DFT calculations to predict vacancy formation energies via graph neural networks in FCC high entropy alloys

Compositionally complex alloy nanoparticles via Nanosecond Laser-Induced Dewetting

Computational Design of Austenitic TRIP Steels

Computational tools for high temperature materials properties via DFT, MD, and deep learning

Computing ternary liquid phase diagrams: Fe-Cu-Ni

Creep-induced elemental redistribution in alloys – A combined experimental and computational study

Design of a High Pressure Die Cast Twitch Aluminum Alloy

Designing Alloys for Multi-Extremes: A High Entropy Alloy Approach

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Effects of minor alloying elements and impurities on long range ordering in Ni-Cr based alloys

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Examples of assessments of reliability of experimental data of phase diagrams and diffusion coefficients

Experimental determination and thermodynamic assessment of the phase equilibria in the Co–Si binary system

Experimental Investigation of Phase Equilibria in Ce-Cr-Ni system

Exploring order-disorder relationships of the high entropy ultra-high temperature ceramic composition space (Ti,Zr,Hf,Nb,Ta)C_1-x

From Classical to Diffuse Interface Nucleation Theory: Molecular Dynamics and Experimental Studies of Supercooled Cu₄₇Zr₄₇Al₆ Metallic Liquids

Grain Boundary Phase-Like Transitions and Grain Boundary Phase Diagrams

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High throughput validation of low-cost, high-strength Al-alloys for additive manufacturing via laser scanning strategies

Integrating high-throughput dual-anneal diffusion-multiple experiments with precipitation simulations to investigate interfacial energy and sequential precipitations in Fe-Cr-Mo

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Invited: From Pure Elements to High-Entropy Alloys: A Computational Framework for Thermodynamic Alloy Design

Invited: Revisit the Ab Initio Lattice Stability of Cr with R2SCAN Exchange Correlation Function

Mapping the Thermodynamic Energy Landscape of High Entropy Materials through Specialized Database and Predictive Model

Microalloying Effects on the Mechanical Behavior of AlCrFeNi-Based Medium Entropy Alloys Optimized by Machine Learning

Modeling Alloy Thermodynamics for Systems with Large Lattice Distortion

Navigating the multidimensional alloy design space by integrating autonomous experiments, computation, and AI

New insights into an old problem: bcc screw dislocation glide at the atomic scale

Optimization of Electron Backscatter Diffraction Techniques for High-Resolution Phase Identification in Aluminum Alloys

Optimizing The Kinetic Properties of Materials Gradients

Phase Transformation Pathway in Additive Manufactured High-entropy Alloys

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Physics-based Thermal Conductivity Model Compatible with Multi-component CALPHAD Assessment

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Pressure-Induced Invar Behavior in Ferromagnetic Materials

Quantitative phase-field modeling of nonequilibrium microstructural evolution in rapid solidification

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The CASM framework for thermodynamic potentials and kinetic transport coefficients in arbitrarily complex multicomponent alloys

The Impact of Phase Stability on Room Temperature Ductility in Refractory High Entropy Alloys

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Thermal Gradient-Driven Grain Growth in Metallic Alloys

Thermodynamic-Guided Understanding of Microstructure and Properties in Low-Melting Alloys for Semiconductor Packaging

Thermodynamic analysis of Fe-Co-Ni alloys prepared by molten salt electro-deoxidation process

Thermodynamic analysis of Fe-Cr-Mn alloys prepared by molten salt electro-deoxidation process

Thermodynamic analysis of the preparation of Fe-Cr-Al alloys by molten salt electrolysis

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Third-Generation Pandat Software: A High-Performance Materials Data Engine for ICME and AI

Vibrational Entropy of High Entropy Alloys

Which Calphad Database Should We Use? Strategic Selection for Materials Design in Additive Manufacturing

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