Step-by-Step Tuning of Tribological and Anticorrosion Performance of Zinc Phosphate Conversion Coatings through Effective Integration of Spherical P-Doped MoS2 Nanoparticles

材料科学 摩擦学 兴奋剂 纳米颗粒 纳米技术 复合数 磷酸锌 转化膜 磷酸盐 一步到位 化学工程 冶金 复合材料 涂层 化学 有机化学 光电子学 工程类
作者
C.V. Geethanjali,Liju Elias,Babu Indira Bijimol,S.M.A. Shibli
出处
期刊:Langmuir [American Chemical Society]
卷期号:40 (39): 20389-20405 被引量:6
标识
DOI:10.1021/acs.langmuir.4c01648
摘要

Surface coatings with enhanced mechanical stability, improved tribological performance, and superior anticorrosion performance find immense application in various industrial sectors. Herein, we report the development of multifunctional composite zinc phosphate coatings by the effective integration of a structurally and morphologically tuned P-doped MoS2 nanoparticle additive (3P–MoS2) into the zinc phosphate matrix to offer attractive characteristics suitable for industrial applications. The integration of spherical nanoparticles as additive leads to the formation of homogeneous and compact coatings with a densely packed crystalline microstructure having enhanced microhardness, distinctive leaf-like morphology, and comparatively smooth topographical features. The attractive lubricity of the additive (3P–MoS2), coupled with its spherical morphology, facilitates a transition from sliding to rolling friction and contributes significantly toward the performance enhancement of the tuned composition of the composite zinc phosphate coating (0.3–PMS). Thus, the tuned 0.3–PMS coating delivers the lowest specific wear rate (1.334 × 10–5 mm3/Nm) and coefficient of friction (0.114) that significantly outperform bare-zinc phosphate coating. Further, the electrochemical corrosion study results indicate the improvement in corrosion resistance behavior of the composite zinc phosphate coatings with reduced corrosion current density (icorr) and charge transfer resistance (Rct) values, as compared to the bare-zinc phosphate coating. The effect of passivation in conjunction with the barrier protection characteristics of the composite coatings induced by the optimal composition of the integrated additive nanoparticles (3P–MoS2) can efficiently prevent the infiltration of corrosive ions and thereby significantly reduce the rate of corrosion.
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