UROP Research Mentor Project Submission Portal: Submission #831 | Center for Undergraduate Research and Academic Engagement

Submission information

Submission Number: 831

Submission ID: 14781

Submission UUID: c09dad5f-155a-4c59-8d1e-742f729465af

Submission URI: /urop-research-mentor-project-submission-portal

Submission Update: /urop-research-mentor-project-submission-portal?token=f3zUxSwTcFxrTcM8yz-p670bXtLcooYISzjroy4V1yM

Created: Sat, 08/17/2024 - 07:47 AM

Completed: Mon, 08/19/2024 - 12:26 PM

Changed: Tue, 08/27/2024 - 01:38 PM

Remote IP address: 190.109.21.138

Submitted by: Anonymous

Language: English

Is draft: No

Webform: UROP Project Proposal Portal

Submitted to: UROP Research Mentor Project Submission Portal

Research Mentor Information

Primary Research Mentor Name Catherine Fidd

Research Mentor Preferred Pronouns she/her

When potential research assistants are reaching out via email, what is your preferred honorific? {Empty}

Contact Email (FSU Email if affiliated) cf22k@fsu.edu

Position Title Graduate Student

Faculty Advisor Name Brandon Krick

Faculty Advisor's FSU Email bkrick@eng.famu.fsu.edu

FSU College (if applicable) FAMU-FSU College of Engineering

FSU Department or Non-FSU Organization Affiliation Mechanical Engineering/ Materials Science and engineering

Headshot (optional)

Additional Research Mentor(s)

Research Assistant Supervisor (if different from above) {Empty}

Research Assistant Supervisor Preferred Pronouns {Empty}

Research Assistant Supervisor Preferred Honorific? {Empty}

Contact Email (FSU Email if affiliated) {Empty}

Name of Other Faculty/Collaborator(s) (if applicable) {Empty}

Other Faculty/Collaborator(s) Preferred Pronouns {Empty}

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Overall Project Details

Title of the Project Microparticle filled PTFE for Tribological Applications

Project Keywords friction, wear, polymers, composite, microparticles, PTFE, electron microscopy

Are you currently looking for research assistants? Yes

Number of Research Assistants Needed 2

Relevant Research Assistant Major(s) 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

If the project location is off campus, does the research assistant(s) need to provide their own transportation? Bus

Please select the choice that most accurately describes your expectations for the research assistant(s): In-person

Approximately how many hours a week would the research assistant(s) need to work? 5-10

Roughly what time frame do you expect research assistant(s) to work? Flexible schedule (Combination of business and outside of business. TBD between student and research mentor.)

Overall Research 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

Mentoring Philosophy 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.

Please provide a link to your publications, a video clip, or a website for your research project (if applicable): https://web1.eng.famu.fsu.edu/~bkrick/

Please add any additional information here (if applicable): {Empty}

Are you interested in participating in the UROP Research Mentor Roundtable? Yes

Roundtable times and Zoom links https://fsu.zoom.us/j/95071630789

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UROP Program Elements

Mentor Handbook, FAQs, and Communication Yes

UROP Performance Evaluation Yes

Materials Grant Yes

UROP Poster Presentation Yes

Faculty Advisor Confirmation Yes

Are you interested in attending in a UROP Research Mentor Workshop Series? No

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Year 2024

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