Articles
  • Characterizations of Cr-P-PTFE composite coatings electroplated from trivalent chromium-based bath
  • Jong-Kyu Parka , Young-Min Byounb , Sun-Kyo Seoc , Su-Young Parkd and Sun-Woo Choie,*
  • a SBP Surtech, 609, Inha Dream Center 1st Bldg, 100 Inha-ro, Nam-gu, Incheon 22212, Republic of Korea
    b Metal & Machinery Team, Korea Conformity Laboratories (KCL), 199 Gasan digital 1-ro, Geumcheon-gu, Seoul 08503, Korea
    c T&C Co., LTD, 21 Oido-ro, Siheung-si, Gyeonggi-Do 15014, Korea
    d Department of Aviation Maintenance, Far East University, 76-32 Daehak-gil, Gamgok-myeon, Eumseong-gun, Chungbuk 27601, Korea
    e Department of Materials and Metallurgical Engineering, Kangwon National University, 346 Joongang-ro, Samcheok, Gangwon-do 25913, Korea
Abstract
Chromium plating is a common surface treatment technique extensively applied in industry due its excellent properties which include substantial hardness, abrasion resistance, corrosion resistance, surface color, and luster. In this study, the effect of PTFE on corrosion behavior of Cr-P plating, low carbon steel substrates are electroplated in Cr(III) baths without and with PTFE. Trivalent chromium carbon plating was electroplated from trivalent chromium sulfate-based baths with different PTFE dispersion contents. The study focused on the microstructure, PTFE content, roughness, and corrosion resistance of the Cr- P-PTFE composite plating. Scanning electron microscopy and atomic force microscopy images showed a smoother plating and a decrease in the surface roughness of the electrodeposited. The results demonstrate that PTFE eliminates the cracks within plating by reducing internal stress. Therefore, the corrosion resistance of Cr-P-PTFE composite platings were better than that of Cr-P alloy platings.

Keywords: PTFE, Composite plating, Morphology, Roughness.

This Article

  • 2018; 19(6): 455-460

    Published on Dec 31, 2018

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