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Meeting 2020 TMS Annual Meeting & Exhibition
Symposium Frontiers of Materials Award Symposium: Leveraging Materials in Topology Optimization
Presentation Title Sustainable Fashion Design, 3D and 4D Printing, and The New Age Lab
Author(s) Julia Daviy
On-Site Speaker (Planned) Julia Daviy
Abstract Scope This presentation will highlight how Julia Daviy and The New Age Lab combine fashion design with engineering, science, sustainable production, and eco-friendly materials. Daviy creates each garment digitally using the innovative technology of 3D printing by zero-waste methods in large-format printers. Daviy’s New Age Lab is the first 3D-printed clothing manufacture model in the United States. Her first collection, The Liberation, was presented during NYFW 2018 and opened the door for wide-use of 3D printing in clothing production. It consisted of 8 pieces of clothing created on FDM 3D printers and one dress, created on SLA 3D printers. While studios are still very much in the experimental phase of bringing 4D printed designs to life, this presentation will also give perspectives on the potential impact and outstanding challenges.
Proceedings Inclusion? Undecided

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Large Scale Level Set Topology Optimization
Level Set Topology Optimization with the Reproducing Kernel Particle Method
Leveraging Materials in Topology Optimization
Materials, Design and Emerging Objects
Multiscale Design Optimization for Integrated Structural-material Systems
Multiscale/Level Design of Materials and Structures
Nonlinear Composite Materials Design through Multi-material Topology Optimization Frameworks
Part-Scale Support Structure Optimization for Minimizing Residual Stress for Laser Powder Bed Fusion Additive Manufacturing
Sustainable Fashion Design, 3D and 4D Printing, and The New Age Lab
Topology Optimization Design of Negative Stiffness and Stretchable Metamaterial via Bezier-based Explicit Density Representation Algorithm
Topology Optimization for Additive Manufacturing
Topology Optimization for Architected Materials
Topology Optimization of Load Carrying Heat Exchangers and Battery Packs
Topology Optimization of the Fast Heat Responsive Structures via a Level-set Method

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