Objective

Corrosion protection of high-strength fasteners is of utmost importance because of the critical nature of structural loads transferred through them and their potential for galvanic corrosion. Adequate corrosion protection is essential for sustaining the structural integrity of fastener connections and preventing preferential corrosion of connected members at the expense of galvanically coupled fasteners. Traditionally, electroplated cadmium layers and hexavalent chromium rinses have been employed for these applications due to their excellent corrosion performance and lubricity for threaded applications; however, cadmium and chromates are hazardous substances (known human carcinogens) and subsequently have high handling and disposal costs. These environmental, health, and safety issues have resulted in more stringent Occupational Safety and Health Administration (OSHA) and Environmental Protection Agency (EPA) regulations. Alternative deposition options for protective coatings have been considered; however, the desired combination of corrosion protection, tribological properties, and production rates has been difficult to achieve with an environmentally benign system.

The objective of this project was to demonstrate the feasibility of using a directed vapor deposition (DVD) process to deposit zinc-nickel-cobalt (Zn-Ni-Co) ternary alloy coatings onto high-strength steel substrates for cadmium plating replacement.