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Meeting

2024 TMS Annual Meeting & Exhibition

Symposium

Additive Manufacturing of Refractory Metallic Materials

Presentation Title

High Absorptivity Nanotextured Powders for Metal 3D Printing

Author(s)

Adrian Lew, Ottman Tertuliano, Philip DePond, Andrew Lee, Jiho Hong, David Doan, Mark Brongersma, Wendy Gu, Manyalibo Matthews, Wei Cai

On-Site Speaker (Planned)

Adrian Lew

Abstract Scope

The widespread application of metal additive manufacturing (AM) is limited by the ability to control the complex interactions between the energy source and the feedstock material. Here we develop a scalable process to introduce nanoscale grooves to the surface of copper and tungsten powders which increases the powder absorptivity by up to 70% during laser powder bed fusion. The absorptivity increase enables printing of pure copper structures with densities up to 92% using laser energy densities as low as 82 J/mm3, and less porous tungsten structures for the same power density. Simulations show that the enhanced powder absorptivity results from plasmon-enabled light concentration in nanoscale grooves combined with multiple scattering events. The approach taken here demonstrates a general method to enhance the absorptivity and printability of reflective metal powders at low energy densities by changing the surface morphology of the feedstock without altering its composition.

Proceedings Inclusion?

Planned:

Keywords

Surface Modification and Coatings, Copper / Nickel / Cobalt, Powder Materials

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Additive Manufacturing of Platinum-based Alloys for Industrial Ultra-high Temperature Structural Applications

Additive Manufacturing of Rhenium-modified Refractory Metals

Additive Manufacturing of Tungsten and Tungsten Alloys - From Printing to Cracking

Additively Manufactured Refractory Alloys for High Temperature Environments

An Open-Source Numerical Model for Mitigating Refractory Alloy Hot Cracking Susceptibility

Atomization and Additive Manufacturing of Refractory Alloys

Control of Toughness in Refractory Nb-Ti Powders Through Induction of Oxygen-binding Subphases

Design for Additive Manufacturing of C103 Propulsion Components for L – PBF and LP – DED

Development of FGMs from Superalloys to Refractory Alloys

Development of Molybdenum Alloys for Use with Powder Blown Laser Directed Energy Deposition Additive Manufacturing

Development of W-Ti-Mo Refractory Medium Entropy Alloy via Selective Laser Melting for Extreme Environment Applications

Effect of Laser Powder Bed Fusion Processing on the Microstructure and Mechanical Properties of Nb

Effect of Tungsten L-PBF Feedstock Modification on Performance in Bending

Elevated Temperature Mechanical Properties of L-PBF Niobium Alloy C103

Heat Treatment Optimization of Laser Powder Bed Fusion Additive Manufacture C103.

High-throughput Synthesis of Refractory High-entropy Alloys by Laser Metal Deposition and Structure-properties Relationships

High Absorptivity Nanotextured Powders for Metal 3D Printing

High Energy X-ray and Neutron Tomography Characterization of Additive Manufacture Refractory Metal Components with Engineered Defects

Impact of Ceramic Nanoparticles on Additive Manufacture of Refractory Metals

Implementation of Solidification Modeling Towards Tailorable Refractory Microstructures in Additive Manufacturing

In-situ Alloying of Tantalum-tungsten with Laser Powder Bed Fusion

Integrated Computational Material Engineering Approach in Additive Manufacturing of Ti/Zr/Mo/Al Light Weight Refractory Complex Concentrated Alloy

Integrated Experiment and Numerical Simulation Analysis of Densification and Cracking during Laser Powder Bed Fusion of Tungsten

Investigating High-Temperature Mechanical Properties and Microstructures of Additively Manufactured Refractory Alloys

Laser Additive Manufacturing of Tungsten-Rhenium Alloys

Laser Beam Directed Energy Deposition Fabrication of MoNbTaTi Refractory High Entropy Alloy via Elemental Powder Processing

Material Characterization of Bulk Feature C103 for Laser Powder Directed Energy Deposition

NASA Refractory Alloy Additive Manufacture Build Optimization (RAAMBO) Project

Nb-1Zr L-PBF In-situ Alloying and Elevated Temperature Mechanical Performance

Numerical Simulation of Radio-Frequency Inductively Coupled Plasma Spheroidization of Tungsten Powder: Effects of Flow Field, Particle Trajectory and Surface Tension

Printing Complex and Stable Titanium-Niobium Geometries via Laser Powder Bed Fusion

Rapid Screening of Nb-base Alloys for Additive Manufacturing

Residual Stress Prediction and Neutron Validation for Functionally Graded High Temperature Materials of IN718 and C103

Surface Finishing, Coating, and Testing of Additive Manufactured C103, Mo, and W.

Surrogate Additive Processes of Refractory Multi-principal Element Alloys

Testing Methodology Development for Ultra-hight Temperature Refractory Alloys Made with Additive Manufacturing

Use of Materials Modeling and Direct Energy Deposition for Design of Additively Manufacturable Tantalum Alloys

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