Conference Tools for 2026 TMS Annual Meeting & Exhibition

Login

Register as a New User

Help

Submit An Abstract

Propose A Symposium

Presenter/Author Tools

Organizer/Editor Tools

About this Abstract

Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Additive Manufacturing: Materials Design and Alloy Development VII – Design With Multi-Modal and Field Data by Integrating Uncertainty

Presentation Title

Alloy- and Microstructure-Design for Additive Manufacturing

Author(s)

Dierk R. Raabe

On-Site Speaker (Planned)

Dierk R. Raabe

Abstract Scope

The talk takes an atomic scale perspective at the alloy- and microstructure-design for Laser Additive Manufacturing. We present atomic- and nanoscale results on the segregation and structural interface features that can help to guide microstructure-optimization of existing alloys and the design of novel advanced alloys, tailored specifically to Laser Additive Manufacturing. Focus is placed on atomic-scale partitioning, segregation and precipitation mechanisms during additive manufacturing of complex engineering alloys as a starting point to develop metallic materials that are not only suitable for Additive Manufacturing but which actually exploit their unique thermo-mechanical characteristics.

Proceedings Inclusion?

Planned:

Keywords

Characterization, Additive Manufacturing, Modeling and Simulation

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Additively manufactured aluminum alloys with exceptional strength, ductility, and high temperature stability

Alloy- and Microstructure-Design for Additive Manufacturing

Alloy Design and Scale-up: An Industrial Perspective

AM-PROGRESS – A Multi-Field Data Generator: Process–Response–Optimized Generation of Representative Structures and Samples for PBF Additive Manufacturing

Bimetal Printing M300-C18150: Single Track Topology and Interfacial Characterization

Co-sintering optimization and mechanical properties of SS316L/IN718 metal layered composite fabricated by material extrusion additive manufacturing

Development of soft magnetic material, FeSi3.5, by direct energy deposition with enhanced magnetic properties

Enabling Multi-Directional Functionally Graded Materials via Directed Energy Deposition (DED) for Future, High-Performance Components

Exploring Chemistry and Additive Manufacturing Design Spaces: a Perspective on Computationally-guided Design of Printable Alloys

Gradient Alloy Design through Multi-Material TIG-based Wire Arc Additive Manufacturing: Microstructural Control and Performance Optimization

High-throughput characterization of functionally graded metals for extreme propulsion environments

High-Throughput Time-Temperature-Hardness/Transformation Dataset Generation for Laser Powder Bed Fusion Alloy 718

Impact of Oxygen Homogeneity on the Processability and Properties of Ti-6Al-4V Parts: Addition Out of Spec Powders

Manufacturing a New Paradigm – Overcoming Modern Challenges

Microstructure and mechanical properties engineering of super duplex stainless steel produced by single-and dual-laser powder bed fusion

Multi-Terminal Compositionally Graded Alloy Design for High-Throughput Materials Exploration

Novel Alloy Design Approach for Printable and Sustainable High Temperature Steels

Performance bottlenecks in materials systems for NASA JPL robotics applications

Quantification of microstructural features of additive-enabled ODS superalloys

Sensitivity of crystallographic texture strength to enthalpy of fusion and freezing range during powder bed fusion additive manufacturing

The science, engineering, and manufacture of materials for fusion energy.

Ti-6Al-4V/316L Amalgamation: Leveraging Non-Equilibrium Solidification in Additive Manufacturing for Microstructural Control

Towards a Multiscale Model for Fatigue in Additively Manufactured Polycrystalline Materials

Questions about ProgramMaster? Contact programming@programmaster.org | TMS Privacy Policy | Accessibility Statement