EML4501 Capstone senior Design Poster Presentations:

August 11th, 2020; 9:30-11am

EML4501 Capstone senior DesiGN oral Design Presentations:

August 11th, 2020; 11:30am-1pm & August 13th, 2020; 9:30am -12:30pm

The UF MAE Capstone Design class has been tasked this semester by UF’s Soft Matter Engineering Group to design a 3D Bio-Printer for construction of biostructures in liquid-like solid (LLS) via cell deposition/retrieval under real-time confocal microscopy. Final designs must be able to print complex living cell structures in LLS that are repeatable, reliable, and robust. These Bio-Printers must be designed for mass production and sale to commercial and industrial laboratories. Further detail on the design expectations and 20 required design metrics can be found under Customer Needs.

Click below to view each team’s abstract, 90-second pitch, and to access their Zoom meetings:

Group 1- Printology Members: Marilyn Braojos, Nicolas Camejo, Carlos Carrasquillo, Isaac Corcoran, Jose Medina, Lorayne Reyes Pajon

Group 2 – Bellow Zero 3D BioPrinter Members: Alice Hafner, John Bryan, MaKenna Lehmann, Mallary Spofford, Nina Jones, Silvia Pardo

Group 3- Novobio 3D Bioprinter Members: Hunter Hintenlang, Sam Kibble, Changxiao Liang, Nan Lin, Demany McKinnon, Min Park

Group 4 – The DREAM Printer Members: Justin Aronstein, Nicolas Sousa, Jessica Valencia, Jeremy Petusevsky, Javian Morgan, Matthew Everhart

Group 5 – String and Spring Precision Extraction and Extrusion Device (SSPEED) Members: Anthony Restrepo, Brady Walter, Derek Teodoro, Josiah Bray, Lucas Michels

Group 6 – BIOmedical Gadget Applying Three–dimensional Organization for Research (B.I.O.G.A.T.O.R.) Members: David Knafo, Devangi Gaikwad, Marcos Tejada, Timothy Peterson, Thomas Vaisberg, Toan Nguyen

Group 7 – PUP Printer Members: Ryan Garcia, Chris Magnus, William Meldrum-Thush, Amir Mettawa, Duc Nguyen, Jack Ruskell

EML4502 – Design Realization FiNal presentations:

The MAE Design Realization class has been tasked this semester to perform design refinements and develop production ready designs of last semesters lift & harness systems.  The designs provide offset weight support for users undergoing neuromuscular rehabilitation on elliptical trainers in UF’s Nonlinear Controls and Robotics (NCR) Lab. Final designs must lift participants from their wheelchair, transport them to the elliptical trainer, and safely suspended them above the trainer during exercise and FES stimulation. Their support systems must maintain a controllable weight offset so the participant need only support a fraction of their total body weight during rehabilitation exercise.

August 13, 2020 1:00 – 2:30 P.M.
FINAL PRESENTATIONS LINK