Are Graphene Filaments Worth It? PLA & PETG Strong by Prografen
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My name is Dr. Igor Gaspar, I am a mechanical engineer and I work as a teacher and researcher on MATE (ex. SZIE) university in Budapest, but this channel is about my hobby: 3D printing, Arduino electronic, CAD and 3D design, web development, photography, etc. If you would like to support my work, my Patreon page: https://www.patreon.com/mytechfun Other info, downloadable files are on www.mytechfun.com website. Important, for review video requests: I am located in Europe, but most of my viewers are from English language countries (USA, UK, AU, CA, DE..) There are no sponsored videos on my channel, all my honest reviews I do for free and there is no possibility for censoring the video. Also, it is important to mention, that for products sent outside of EU I have to pay duty and tax fees. Since I am still very small YouTube channel, sender must accept these fees. This is just short version of my terms, full version is available on mytechfun.com website.
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I tested graphene-reinforced 3D printing filaments from Prografen: PLA Strong and PETG Strong. These materials promise improved mechanical properties along with reduced wear and friction, thanks to the addition of graphene. But how do they actually perform? In this video, I run them through a full set of tests, including tensile strength, layer adhesion, shear, torsion, impact, bending, creep, and temperature resistance. I also check friction and wear on both glass and aluminum. All tests were done using my standard method, so you can compare the results with previous videos. Product page (not affiliate link): https://prografen.com/ 🧪 Want to compare these results to others? Support me on Patreon and get access to the full spreadsheet with earlier test data: 👉 https://www.patreon.com/mytechfun Rack Gear from the video and thumbnail: https://www.printables.com/model/792603-rack-and-pinion-gear-educational-model 📌 Chapters: 0:00 Introduction 1:04 Specifications 2:01 Unboxing 2:52 3D printing 3:59 Friction test on glass 4:25 Friction test on aluminum 5:26 Wearing test 6:17 Tensile test 6:45 Layer adhesion 7:24 Shear test 7:55 Torsion test 8:39 Impact test 9:13 Bending test 10:00 Creep test 11:58 Temperature test 12:28 All results 12:55 Conclusions Thanks for watching!
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