UROP Project
friction, wear, polymers, composite, microparticles, PTFE, electron microscopy
Research Mentor: Catherine Fidd, she/her
Department, College, Affiliation: Mechanical Engineering/ Materials Science and engineering, FAMU-FSU College of Engineering
Contact Email: cf22k@fsu.edu
Research Assistant Supervisor (if different from mentor):
Research Assistant Supervisor Email:
Faculty Collaborators:
Faculty Collaborators Email:
Department, College, Affiliation: Mechanical Engineering/ Materials Science and engineering, FAMU-FSU College of Engineering
Contact Email: cf22k@fsu.edu
Research Assistant Supervisor (if different from mentor):
Research Assistant Supervisor Email:
Faculty Collaborators:
Faculty Collaborators Email:
Looking for Research Assistants: Yes
Number of Research Assistants: 2
Relevant Majors: Mechanical engineering
Engineering
Physics
Chemistry
Materials Engineering
Computer Science
Electrical Engineering
Chemical Engineering
Industrial and manufacturing engineering
Project Location: College of Engineering: AME building - 2003 Levy Ave Tallahassee, FL 32310
Research Assistant Transportation Required: Bus Remote or In-person: In-person
Approximate Weekly Hours: 5-10,
Roundtable Times and Zoom Link: https://fsu.zoom.us/j/95071630789
Number of Research Assistants: 2
Relevant Majors: Mechanical engineering
Engineering
Physics
Chemistry
Materials Engineering
Computer Science
Electrical Engineering
Chemical Engineering
Industrial and manufacturing engineering
Project Location: College of Engineering: AME building - 2003 Levy Ave Tallahassee, FL 32310
Research Assistant Transportation Required: Bus Remote or In-person: In-person
Approximate Weekly Hours: 5-10,
Roundtable Times and Zoom Link: https://fsu.zoom.us/j/95071630789
Project Description
Polytetrafluoroethylene (PTFE) is a popular polymer for tribological applications due to it's remarkably low coefficient of friction. Unfortunately, it's high wear rate limits many of its applications. To combat this issue, composites of PTFE filled with microparticles have been created to reduce the wear rate with minimal impacts on frictional properties. This project is centered around creating PTFE- microparticle-filled composites and testing their friction and wear capabilities in various environmental conditions on an in-house made tribometer. Additionally, characterization of the polymer composites with be performed with electron microscopy, Raman, and other characterization methods to determine the mechanism for the observed friction and wear properties in the polymer.Research Tasks: -Polymer manufacturing
-Post-processing of sample (sintering)
-Machining of manufactured polymer into testable samples
-Testing of sample on tribometer, data collection
-Data processing in MATLAB
-Will require a literature review
Skills that research assistant(s) may need: -MATLAB (recommended)
-Calculus
-Machining (recommended)
-Understanding of basic mechanics, especially friction
*all skills necessary for this project will be taught