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http://dx.doi.org/10.12772/TSE.2018.55.349

Adhesion between Surfaces Treated with Aramid Fiber and Silicone/Fluorine Rubber  

Lee, Jae-Ho (Korea Dyeing and Finishing R&D Institute)
Lee, Jae-dong (Korea Dyeing and Finishing R&D Institute)
Park, Sung-min (Korea Dyeing and Finishing R&D Institute)
Lee, Jong-woo (Baekil Ltd.)
Publication Information
Textile Science and Engineering / v.55, no.5, 2018 , pp. 349-355 More about this Journal
Abstract
The interfacial adhesion property between aramid and rubber is a very important factor when aramid is applied as a reinforcing material for automotive heat-resistant hoses. This study examined the improvement of interfacial adhesion between aramid and rubber by applying plasma and a coupling agent to m-aramid. The SEM, AFM, and XPS characteristics were examined based on the plasma treatment conditions. The plasmatreated aramid was then treated with the coupling agent to analyze the interfacial adhesion with silicon, fluorine, and hybrid rubber. The plasma treatment resulted in an increase in the surface roughness of the aramid, and the mechanical properties of the aramid fabric decreased because the surface of the aramid was fibrillated. Moreover, the interfacial adhesion between aramid and rubber increased by 16.2% with the use of the coupling agent and plasma treatment.
Keywords
m-aramid; surface treatment; plasma; coupling agent; silicone rubber;
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