UROP Research Mentor Project Submission Portal: Submission #1124

Submission information
Submission Number: 1124
Submission ID: 20216
Submission UUID: 16110263-119e-41c7-8d24-639b5dffb3d7

Created: Wed, 08/13/2025 - 11:50 AM
Completed: Wed, 08/13/2025 - 11:50 AM
Changed: Fri, 08/22/2025 - 03:32 PM

Remote IP address: 144.174.214.38
Submitted by: Anonymous
Language: English

Is draft: No

Research Mentor Information

Catherine Fidd
she/her
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cf22k@fsu.edu
Graduate Student
Brandon Krick
bkrick@eng.famu.fsu.edu
FAMU-FSU College of Engineering
Mechanical Engineering, Material Science and Engineering
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Additional Research Mentor(s)

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Overall Project Details

Tribology of PTFE Composites
wear, friction, PTFE
Yes
1
Open to all Majors
AME Building- 2003 Levy Ave, Tallahassee, FL 32310
Bus
In-person
5-10
Flexible schedule (Combination of business and outside of business. TBD between student and research mentor.)
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 or polymer blends have been created to reduce the wear rate with minimal impacts on frictional properties. This project is centered around creating PTFE 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, contact angle measurements, and other characterization methods to determine the mechanism for the observed friction and wear properties in the polymer.
-Polymer manufacturing
-Surface energy measurements using contact angle
-Post-processing of sample (sintering)
-Machining of manufactured polymer into testable samples
-Testing of sample on tribometer, data collection
-Data processing in MATLAB
-MATLAB (recommended)
-Calculus
-Machining (recommended)
-Understanding of basic mechanics, especially friction
*all skills necessary for this project will be taught
My mentoring philosophy revolves around fostering independence while providing support and guidance. In the context of polymer processing and mechanical testing, my approach emphasizes empowering students to take ownership of their project, starting with foundational training and evolving into self-directed work. I believe in the ultimate goal of developing critical thinking skills through data processing and analysis. I encourage students to delve deeply into relevant literature, linking past research with their experimental results. By maintaining open lines of communication, I aim to create an environment where questions are welcomed, and curiosity is nurtured. Our lab has a multi-tiered mentoring structure, where the student will be able to talk to both the graduate student and faculty advisor regarding the project. My role is to guide and support, helping students navigate challenges and refine their understanding, ultimately leading to a more profound grasp of both the theoretical and practical aspects of their project.
https://web1.eng.famu.fsu.edu/~bkrick/
This project has some work that can be conducted on main campus as well.
Yes
https://fsu.zoom.us/j/92219172548
Tuesday September 2nd (3:30-5:30pm)
Thursday September 4th (12:30-2:30pm)
  • Day: Tuesday, September 2
    Start Time: 3:30
    End Time: 5:30
    Zoom Link: https://fsu.zoom.us/j/92219172548
  • Day: Thursday, September 4
    Start Time: 12:30
    End Time: 2:30
    Zoom Link: https://fsu.zoom.us/j/92219172548

UROP Program Elements

Yes
Yes
Yes
Yes
Yes
No
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2025
https://cre.fsu.edu/urop-research-mentor-project-submission-portal?token=2IwlaEPoiHKCUH3EKLnkFsTupJybifFpHnM9Vg1r7Cw