04 Composite Reinforced Additive Manufacturing
Traditional 3D-printing uses a planar workflow where the print bed and all subsequent print layers are flat and parallel. This process does not take full advantage of additive manufacturing. In this project, early research investigations looked for ways that this planarity could be broken in order to take advantage of a multi-axis KUKA setup. This involved the development of large scale 3D-printed components which were reinforced with a composite membrane.
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Traditional 3D-printing uses a planar workflow where the print bed and all subsequent print layers are flat and parallel. This process does not take full advantage of additive manufacturing. In this project, early research investigations looked for ways that this planarity could be broken in order to take advantage of a multi-axis KUKA setup. This involved the development of large scale 3D-printed components which were reinforced with a composite membrane.
Read more
2022 - 23
03 Topology Optimized 3D-Printed Wall Panels
Past research which investigates the application of large scale additive manufacturing for modular construction systems.
Coming soon
Past research which investigates the application of large scale additive manufacturing for modular construction systems.
Coming soon
2020 -
21
02 COVID-19 Face Shield
A 3D-printed and injection molded face shield for staff and students at the University of Tennessee Knoxville during the COVID-19 pandemic.
Coming soon
A 3D-printed and injection molded face shield for staff and students at the University of Tennessee Knoxville during the COVID-19 pandemic.
Coming soon
Summer 2020
01 Irregular Quad-Mesh Grid Topologies
The following project was part of a summer long dive into Rhino 3D’s Python programming library. The result was an in depth development of Rhino 3D’s drawing processes and the subsequent manipulation of the geometry. This project was one of my first major forays into computational design which eventually sparked many of the studio and research projects in the years to come. The included paper details the original Python exploration inspired by the indie game “Townscaper”.
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The following project was part of a summer long dive into Rhino 3D’s Python programming library. The result was an in depth development of Rhino 3D’s drawing processes and the subsequent manipulation of the geometry. This project was one of my first major forays into computational design which eventually sparked many of the studio and research projects in the years to come. The included paper details the original Python exploration inspired by the indie game “Townscaper”.
Read more
Summer 2020