Boeing
Part Smoothing Models for Additive Manufactured Titanium
Additive Manufacturing (AM) is quickly transforming industrial manufacturing with the ability to produce high strength, low weight parts with intricate designs that are too complex to manufacture by conventional methods. However, the finishing/smoothing (post processing) of parts remains one of the biggest challenges for enabling full and affordable implementation of AM. This student team sought to create a model that accounts for reaction kinetics, gas, and fluid flow and how it interacts with intricate part shape to design an optimal chemical processing configuration on internal surfaces. This student team worked to include documentation on how the model was created, with attention to the underlying assumptions that were made and known limitations, as well as a copy of the final model (to include examples of how it is used, if built using common software).
Faculty Adviser
Ben Rutz,
Chemical Engineering
Students
Katarina Heck
Kent Perez
Malinda Ham
Michael Meissner
Nathan Segers
Nicole Tu
Related News
Fri, 09/20/2024 | UW Civil & Environmental Engineering
Smarter irrigation for a greener UW
A new project combines satellite data with ground sensors to conserve water and create a more sustainable campus environment.
Mon, 09/09/2024 | UW Mechanical Engineering
Testing an in-home mobility system
Through innovative capstone projects, engineering students worked with community members on an adaptable mobility system.
Mon, 08/19/2024 | UW Mechanical Engineering
Students strive to ensure accurate AED shock dosage
ShockSafe, developed by students with the help of mentors from Philips and Engineering Innovation in Health (EIH), can distinguish between children and adults during cardiac arrest emergencies.
Wed, 08/07/2024 | Snohomish County News
Snohomish County, University of Washington partnership boosts efficiency in enterprise scanning center
UW Industrial and Systems Engineering Capstone Project set to save Snohomish County over $40,000 annually.