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Meeting 2018 TMS Annual Meeting & Exhibition
Symposium Multi-material Additive Manufacturing: Processing and Materials Design
Presentation Title Realizing Multi-functional Products via Multi-material Additive Manufacturing Processes
Author(s) Christopher Bryant Williams
On-Site Speaker (Planned) Christopher Bryant Williams
Abstract Scope The core function of Additive Manufacturing (AM) technologies – forming layers by the selective placement (or forming) of solid material – provides unsurpassed design freedom in both the geometric topology and the material composition of a product. Using AM, a designer has the power to selectively place multiple-materials only where they are needed, and thus is afforded the opportunity to realize products that satisfy multiple functions and design objectives. However, to fully realize this potential, AM processes are in need of further advancements in material selection and process capability. In this talk, the presenter will discuss a number of AM process chains that enable novel combinations of multiple materials to enable multi-functionality, including ceramic-metal composite cellular structures (via binder jetting of foundry sand), products with embedded actuation and sensing (via embedding in material jetting), and functionally-graded materials for tailored stiffness (via multi-material vat photopolymerization and material jetting).
Proceedings Inclusion? Planned: Supplemental Proceedings volume

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Additively Manufactured Functionally Graded Steels through a Novel Approach to Path Finding
A Separable Support Strategy for 3D Printing of Complex Metal Parts
Additive Manufacturing of Inconel 718 – Ti6Al4V Bimetallic Structures Using LENS™
Additive Manufacturing of Periodic Metal-metal Composites
Additive Manufacturing Science at the Army Research Laboratory
Big Metal Additive Hybrid Manufacturing
Bimetallic Bonding via Two Methods of Direct Metal Deposition Additive Manufacturing
Bonding Features and Microstructural Evolution in Cold Sprayed Metallic Coatings and Bulks: A New Materials Perspective
Design and Fabrication of Lightweight, Hierarchical Multi-material Composites with Tunable Thermal Mechanical Properties
Design and Optimization of Fiber Reinforced Polymers Enabled by Additive Manufacturing
Developing Functionally Graded Metals through Additive Manufacturing: Progress, Challenges, and Future Vision for a Unique Technology
Development of High-performance 316L Stainless Steel Nanocomposites by Additive Manufacturing
Development of Novel Squeeze Cast High Tensile Strength Al-Si-Cu-Ni-Sr Alloys
Dynamic Microstructural Control in Printable Colloidal Structures via Acoustic Focusing
Experimental-computational Approach toward Design of Additively Manufactured Functionally Graded Metallic Materials
Extrusion of Direct-write Inks with Particle Gradients
Fabrication of WC-Co Metal Matrix Composites via Melt Infiltration Using Binder Jet Additive Manufacturing
Hybrid Manufacturing of Functionally Graded M300 and 316L Steels
Large-scale Additive Manufacture of MMC and Layered Multi-material Products
Liquid-solid Phase Metamaterials Fabricated by Two-photon Lithography
Machine, Material, and Toolpath Design for High-throughput Extrusion Additive Manufacturing
Meso-scale Design of Heterogeneous Material Systems in Multi-material Additive Manufacturing
Microstructure and Mechanical Properties of Additive Friction Stir Processed Dissimilar Metals
Multi-material Topology Optimization for 3D Printed Multi-functional Architected Materials and Components
Multi Phase Materials with Architectured Micro Scale Interfaces
Nanomechanical and EBSD Characterization of Thermo-mechanical Additive Manufactured Inconel 625
Novel High Temperature Drop on Demand Liquid Metal-jetting for the Production of Single and Multi-material 3D Objects
Hide details for [<a href="/PM/PM.nsf/ApprovedAbstracts/A5DAB4B0480A53518525815D0047C34F?OpenDocument">Processing of High MeltiProcessing of High Melting Temperature Polymer with Ceramic Particles as Processing Aid in Selective Laser Sintering
[Replication or Save Conflict]
Realizing Multi-functional Products via Multi-material Additive Manufacturing Processes
Strong and Robust Nanoarchitectures
Understanding and Predicting the Heterogeneous Local Ligament-level Deformation Response in Metal Lattice Structures

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