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Meeting 2018 TMS Annual Meeting & Exhibition
Symposium Design for Mechanical Behavior of Architectured Materials via Topology Optimization
Presentation Title A Panel Discussion for the Design of Materials via Topology Optimization
Author(s) Natasha Vermaak, Andrew Gaynor
On-Site Speaker (Planned) Natasha Vermaak
Abstract Scope Throughout the symposium on the Design for Mechanical Behavior of Architectured Materials via Topology Optimization (TO), recent breakthroughs and materials development enabled by TO is highlighted. This session provides an opportunity to have several symposium speakers participate in a panel discussion moderated by the symposium organizers to explore the current state-of-the-art in architected materials design, to identify research gaps, and to discuss where the future research will take the community. The panel will be comprised of experts from academia, government and industry. Specific discussion topics may include: (1) Broader adoption of TO in the materials science community: what are the barriers?, (2) Moving away from material-agnostic TO, (3) Technical hurdles such as bridging scales in TO, (4) Terminology definition and standardization: “meso” scale, “architected” materials design, lattice structures, etc., and (5) Approaches to and feasibility of simultaneous parametric and topological optimization.
Proceedings Inclusion? Planned: Supplemental Proceedings volume


A Level Set Based Topology Optimization Framework to Design Extreme Thermos-elastic Microstructure: Influence of Graded Interfaces and Multi-materials
A Panel Discussion for the Design of Materials via Topology Optimization
Deformation and Failure of Bioinspired Segmented Architectured Beams and Plates
Dense Architectured Materials in Engineering and in Nature
Design for Discovery: Integrated Computational Design & Additive Manufacturing of Mechanical Metastructures with a Parametric Level-set Based Approach
Design of Honeycomb TWIP Steels for Maximum Energy Absorption
Discrete-element Modeling of Nacre-like Materials: Random Microstructures, Nonlinear Deformations and Fracture
Efficient Microstructural Design: A Topological Sensitivity Approach
Extreme Design: An Adrenalin Rush with Topology Optimization, Metamaterials and Additive Manufacturing
Incorporating Material Heterogeneity in Automated Design Tools
Inverse Homogenization Design of Micro-truss Architected Materials Using Geometric Primitives
L-29: Mechanical Properties of Work Hardened Steel Multilayers with Bimodal Grain Size
Multiscale Design with Architected Material Connectivity for Multiphysics Problems
Optimal Design of Architected Materials with Extreme Energy Dissipation
Optimized Microlattices for High Strength and Impact Attenuation
Realizing Optimized Mesoscale 3D Architected Material Designs via Nanoparticle Assembly by Pointwise Spatial Printing
Tailoring the Dynamic Properties of 3D Woven Metallic Lattices through Topology Optimization
Topology Optimization for Sliding Abrasive Wear of Bi-material Composites
Topology Optimization of Architected Materials with Application-specific Tailored Properties
Topology Optimization of Multi-material Truss Lattice Structures via Geometry Projection
Topology Optimization with RVE Lattice Structures Subject to Additive Manufacturing and Stress Design Constraints

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