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An Experimental Study on Factors Affecting the Friction Coefficients in Electroplated Bolts

Juan Ma

2020Tribology Transactions11 citationsDOI

Abstract

Electroplated bolts have been widely used in the automotive industry for many decades. In the present work, for the first time, the role of each layer of the bolt coating (i.e., electroplating, passivation layer, and topcoat layer) on the coefficient of friction of a bolted joint were experimentally and systematically investigated. The coefficient of total friction (μtot), coefficient of friction between threads (μth), and coefficient of friction between bearing surfaces (μb) were calculated by a torque–tension testing system and compared under different experimental conditions. It was found that the μth, μb, and μtot on pure Zn plating was slightly different from that on Zn-Ni alloy plating; the black passivation layer had lower μth, μb, and μtot than the clear passivate when topcoats were applied; and the topcoat played a dominant role in reducing the μtot. Other factors including washer material, nut plating, and heat treatment were also studied. Results showed that the aluminum washer gave a dramatically higher μb than the steel washer. The tested plating layers of Zn, Ni, and Zn-Ni alloy on the nut did not significantly affect the μth. Tested bolts could withstand heat up to 182 °C for 1 h. Higher temperature or longer heating time increased μth, μb, and μtot. These findings will increase the understanding of the factors that affect the friction coefficients in electroplated bolts and will help to better design bolted joints.

Topics & Concepts

WasherMaterials scienceElectroplatingPlating (geology)MetallurgyPassivationAlloyComposite materialLubricationLayer (electronics)CoatingFriction coefficientBolted jointStructural engineeringMechanical engineeringEngineeringFinite element methodGeophysicsGeologyMechanical stress and fatigue analysisElectrical Contact Performance and AnalysisEngineering Structural Analysis Methods