DIGITAL FABRICATION

a collection of made work produced with 3D modeling software and machines

For this project we were tasked with creating a multi-flex pavilion. This pavilion was to be designed to be able to orient in two different ways (above) by flipping the object in 3D 90 degrees. I then used a grasshopper script to create parametric perorations in the skin of the building. It then serves as a point of departure for the 3D print (below).

YEAR COMPLETED: Spring 2018
PROFESSOR: Keith Kaseman
MATERIAL: Chipboard
MACHINE: Laser Cutter
SOFTWARE: Rhino + Grasshopper

This project was based off of the wireframes taken from the pavilion (above). The parameters were then taken to extremes to create a 3D form that is able to stand on multiple different sides with multiple different orientations.

YEAR COMPLETED: Spring 2018
PROFESSOR: Keith Kasemen
MACHINE: 3D Printer
SOFTWARE: Rhino + Grasshopper

This project was completed for elective course 'Advanced Productions'. We were tasked with making any type of 3D model in the Digital Fabrication Lab on campus. My partners and I created a landscape model that was CNC 3D routed out of plywood. Then an aluminum frame was created based off of the geometries and extruded upwards. These aluminum panels were cut on the water jet then put together with rivets.

YEAR COMPLETED: Fall 2019
PROFESSOR: Keith Kasemen
MATERIAL: Plywood, Aluminum, Rivets
MACHINE: CNC Router, Water Jet, Rivet Gun
SOFTWARE: Rhino + Grasshopper, Alpha Cam
SIZE: 2' X 2' (base)

This project was completed for elective course 'Advanced Productions'. We used a grasshopper plugin called Fologram that allows us to project parametric geometry into real space through your phone or HoloLens.

YEAR COMPLETED: Fall 2019
PROFESSOR: Keith Kasemen
SOFTWARE: Rhino + Grasshopper, Fologram (AR geometry)