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Meeting 2022 TMS Annual Meeting & Exhibition
Symposium Additive Manufacturing: Beyond the Beam III
Sponsorship TMS Materials Processing and Manufacturing Division
TMS: Powder Materials Committee
TMS: Additive Manufacturing Committee
Organizer(s) Brady G. Butler, US Army Research Laboratory
Peeyush Nandwana, Oak Ridge National Laboratory
James D. Paramore, US Army Research Laboratory
Nihan Tuncer, Desktop Metal
Markus Chmielus, University of Pittsburgh
Paul D. Prichard, Kennametal Inc.
Scope Additive manufacturing comprises a breadth of processes, which have substantial commercial potential, design flexibility, and technical challenges. Significant corporate and government resources have been committed to energy beam powder bed fusion processes, while solid-state AM technologies have lagged in terms of overall funding for research and development. Furthermore, these “green part” additive technologies build extensively on decades of particulate material processes, which enable the additive manufacturing of non-weldable materials. These processes include but are not limited to: binder jetting, material extrusion, material jetting, bound filament deposition, nano-Inkjet printing, friction stir deposition, ordered powder lithography, and cold spray. Non-beam-based additive technologies face several unique challenges, such as: feedstock development, alloy design, depowdering, powder recycling, binder design, debinding, process modeling, microstructural development, dimensional accuracy, sintering distortion, and sintering support structure design. This symposium will explore the relationships between the various aspects of process variables, properties, application performance, economics, and functionality of these non-beam additive techniques.
Abstracts Due 07/19/2021
Proceedings Plan Planned:
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

3D Binder-Jet Printed Metal Filters
A Multi-Step Data Driven Model for Reverse Shape Compensation for Binder Jet Parts
Additive Friction Stir Deposition of Al0.04CoCrFeNi High Entropy Alloy
Additive Manufacturing Assisted by Subtractive Sintering of Powder Components
Atomistic and Mesoscale Modeling of Sintering Kinetics in Solid-state Additive Manufacturing
Binder Jet Additive Manufactured H13: Microstructure Evolution and Properties
Cold spray processing of soft metals and hard steels
Coupled Fluid/Particle Dynamics Simulations for Binder Jetting Process
Demonstration of Strain Monitoring with Fiber Optics Embedded in SS304 with Ultrasonic Additive Manufacturing
Droplet-Powder Interactions in Binder Jetting: From Droplet to Line to Layer to Part
Effect of Laser Heating on Microstructure and Deposition Properties of Cold Sprayed SS304L
Effect of Powder Heat Treatment on Fatigue Performance of Free Standing AA7075 Cold Spray
Finite Element Analysis of High-strain-rate Deformation
FRICTION AND GRAVITY EFFECTS DURING SINTERING OF BINDER JET PARTS
Friction stir-based additive manufacturing techniques: Prospects and possibilities
Hydrogen Heat Treatment of Additively Manufactured Ti-6Al-4V for Improved Mechanical Properties
Impact of Grain Boundary Mobility on Decreasing Porosity in Metal Binder Jetting of Free-Sintering Low-Alloy Steel
In situ Observation of Melt Pool in Ultrasonic Vibration-Assisted Directed Energy Deposition
Influence of Hydrogen Content and Particle Size Distribution on the Microstructure of Tantalum Cold Spray Coatings
Interface formation during metal 3D printing: from individual droplets to 3D parts
Investigating process-structure-property relationships of 17-4 PH stainless steel fabricated via laser beam powder bed fusion (LB-PBF), laser powder directed energy deposited (LP-DED), and metal binder jetting (MBJ) methods
Material Flow and Microstructure Evolution during Additive Friction Stir Deposition of Aluminum Alloys
Mechanical Properties and Characterization of Solid-State Additive Manufacturing of AA6061 and AA5083
Mesoscale simulation of cold spray microstructure formation
Micro- and Nanostructural Evolution in AA7075 Manufactured by Additive Friction Stir Deposition
Microstructure and mechanical properties of friction stir deposited SS304
Microstructure Evolution Pathway in Solid-State Additive Manufacturing of Copper
MODELING OF EFFECT OF POWDER SPREADING ON GREEN BODY DIMENSIONAL ACCURACY IN ADDITIVE MANUFACTURING BY BINDER JETTING
Modeling Sintering Processes with Continuum Approaches
Optimization of Al 6061 Powder Feedstock for Cold Spray using a Through-Process Experimental Approach
Overview of the Process Fundamentals Underlying Additive Friction Stir Deposition
Parametric Study to Investigate the Sintering Behavior of Binder Jetted Oxide Ceramics
Practical Considerations for Complex Path Planning for Cold Spray Additive Manufacturing.
Print Parameter Effects on Porosity Distribution in Binder Jetting of WC-Co
Processing-structure-property correlation in additive friction stir deposited Ti-6Al-4V alloy from recycled metal chips
Processing and Characterization of Tantalum Powders for Cold Spray
Sintering Study of WC-17%Ni Cermets Processed By Binder Jet Additive Manufacturing
Temperature Influence on Microstructure and Mechanical Behavior During Deposition of Solid-State Additively Manufactured Aluminum Alloy 7050
Topological toughness in additively manufactured ceramic architected materials
X-ray Computed Tomographic Study of Density Gradients within Binder Jet Printed H13 Components


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