High Friction, Durability Non-slip Pads Consisting of Fluoroelastomer with Microstructures for High Vacuum and High Temperature

Fluoroelastomer (FKM), a thermosetting elastomer, stands out with its excellent friction characteristics and exceptional attributes of chemical, vacuum, and heat resistance, setting it apart from typical rubber materials. Leveraging these qualities, FKM emerges as the optimal material for friction p...

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Veröffentlicht in:	International Journal of Precision Engineering and Manufacturing, 25(10) 2024, 25(10), , pp.2145-2152
Hauptverfasser:	Kim, Hyo Sung, Kwak, Moon Kyu, Lee, Sung Ho
Format:	Artikel
Sprache:	eng
Schlagworte:	Durability Elastomers Engineering Extreme environments Fluoropolymers Friction High temperature High vacuum Industrial and Production Engineering Materials Science Micropatterning Microstructure Regular Paper Thermal resistance 기계공학
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creator	Kim, Hyo Sung Kwak, Moon Kyu Lee, Sung Ho
description	Fluoroelastomer (FKM), a thermosetting elastomer, stands out with its excellent friction characteristics and exceptional attributes of chemical, vacuum, and heat resistance, setting it apart from typical rubber materials. Leveraging these qualities, FKM emerges as the optimal material for friction pads used in extreme environments requiring high temperatures and vacuum, such as space and semiconductor processes. In this study, we introduce micropatterned bolt-inserted FKM pads (BIFP) designed to enhance friction, productivity, and usability. To produce BIFPs with improved friction characteristics, various microstructures were designed and tested for their friction performance. Additionally, to meet the demand for extended durability, we conducted 500,000-cycle repetitive tests. In terms of performance, durability, and usability, the developed BIFPs will be utilized widely, especially in industrial settings requiring harsh operating conditions.
doi_str_mv	10.1007/s12541-024-01040-5
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subjects	Durability Elastomers Engineering Extreme environments Fluoropolymers Friction High temperature High vacuum Industrial and Production Engineering Materials Science Micropatterning Microstructure Regular Paper Thermal resistance 기계공학
title	High Friction, Durability Non-slip Pads Consisting of Fluoroelastomer with Microstructures for High Vacuum and High Temperature
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