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Meeting

2025 TMS Annual Meeting & Exhibition

Symposium

Designing Complex Microstructures through Additive Manufacturing

Presentation Title

Pathways to Grain Boundary Engineering in Additive Manufactured Alloys

Author(s)

Marie Charpagne, Yuheng Nie

On-Site Speaker (Planned)

Marie Charpagne

Abstract Scope

Grain boundary engineering (GBE) is a processing strategy that aims to introduce a high fraction of low energy boundaries, such as twin boundaries. GBE-microstructures have been achieved via conventional processing techniques and have shown superior resistance to crack propagation, oxidation, and corrosion. However, the scalability of these processes has remained a major challenge. Here, I will present new opportunities in GBE unlocked by additive manufacturing (AM). I will introduce novel alloy design strategies that leverage rapid solidification as well as the deep undercoolings inherently associated with additive manufacturing, to introduce twin boundaries in as-built microstructures, in a maximum of two processing steps. We will discuss the metallurgical mechanisms at the origin of twin boundary formation, and how composition and printing parameters affect them, framing a co-design paradigm for GBE in AM. Emphasis will be placed on the scalability of these approaches, and their translatability across multiple alloy families.

Proceedings Inclusion?

Planned:

Keywords

Additive Manufacturing, Phase Transformations, Characterization

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From Complex Geometries to Complex Microstructures: New Opportunities for Materials Design

G-100: Cell Boundary Engineering of Ferrous Medium-Entropy Alloy Fabricated by Laser Powder Bed Fusion

G-101: Enhancing Mechanical Properties of Alloys With Non-Equilibrium Microstructures Formed During Hydrogel Infusion-Based Additive Manufacturing (HIAM)

G-103: Understanding the Effect Build Orientation and Alloying Strategy in Microstructure and Mechanical Behavior of Laser Metal Deposited Duplex Stainless Steel

G-104: A Synchrotron Imaging Investigation of the Application of Ultrasound on Directed Energy Deposition

G-106: Effect of Laser Melt Schedule on the Microstructure of Additively Manufactured IN718 Alloy

G-107: Enhancing Alloy Development for Additive Manufacturing Through Combinatorial High-Throughput Experimentation

G-108: Enhancing Mechanical Properties of Bio-Inspired, 3D-Printed Composites via Topological Interlocking

G-109: Invar-Ag Microcomposites Formed by Ag Dendritic/Cellular Infiltration of Pre-Cast or Pre-Additively Manufactured Invar-Cu

G-110: Investigating Microstructural Evolution and Internal Stress Development in Additively Manufactured Metals Using Phase Field Modeling

G-111: Laser Powder Bed Fusion of In718/GRCop-42 Bimetallic Structures: Effect of Deposition Order and Process Parameters

G-112: Microstructural Control in Directed Energy Deposition: In-Situ Layer Thickness Control and Analytical Modeling With 316L Stainless Steel

G-113: Processing-Microstructure Relationships in Ferrous Alloys via Mixed Powder Laser Powder Bed Fusion

G-114: Tailoring the Microstructure of AA6061 Using Pulsed Laser in Powder Bed Fusion

G-115: The Effect of Scan Strategies on 316 Grade Stainless Steel Fabricated Using Laser Powder Bed Fusion

Influence of Phase Constitution on the Corrosion Behavior of Al-Added Steels Produced by Laser-Based Powder Bed Fusion Processes

Laser Powder Bed Fusion of CuCrZr - In625 Multi-Materials

Laser Powder Bed Fusion Processing of Oxide Dispersion-Strengthened (ODS) Pure Copper for High-Resolution and High-Strength Complex-Geometry 3D Components

Microstructural Control of Additively Manufactured Ti-6Al-4V via In-Situ Laser Annealing

Microstructural Engineering of Additively Manufactured Metals

Microstructure and Heterogeneous Deformation of Functionally Integrated Materials Fabricated by Directed Energy Deposition Additive Manufacturing

Microstructure Evolution and Kinetics in Post Heat-Treatment of 316H Stainless Steel Fabricated by Laser Powder Bed Fusion

New Insights Into the Microstructural Evolution and Mechanical Properties of 17-4PH SS Developed During Laser Powder Bed Fusion

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Parameter Selection and Micro/Meso-Material Response: Understanding the Cause-Effect Relationship

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Processing and Microstructure: Localized Control of an Al-Ce-Cu-Zr Alloy

Remelting-Informed Grain Engineering in Laser Powder Bed Fusion

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