Abstract
Phosphate coatings are one of the most important methods in preventing metal corrosion, especially iron alloys. The high interest in this method for industrial applications is mainly due to the low costs associated with the phosphating solution component and technological process. Considering this aspect and the advantages offered to the materials (corrosion resistance, good adhesion, wear resistance), this study evaluates the potential of using the phosphate coating method in health and safety applications. Therefore, the deposition of a layer of zinc phosphate on the steel surface used in the manufacture of components for personal protective equipment was approached. Firefighters, during rescue/evacuation operations, use protective equipment for fall arrest, whose accessories (hooks, carabiners) are made of steel. Due to the low corrosion resistance property of carbon steel, these accessories must be replaced frequently. This paper aims to analyze the possibility of improving the corrosion resistance of carbon steel in a fire extinguishing solution. Accordingly, the electrochemical behavior of two different types of coatings was studied by electrochemical impedance spectroscopy (EIS) and scanning electron microscope (SEM). In the literature, different corrosion evaluating methods or systems have been considered, and up until now, there has been no previous study to have approached the corrosive behavior of C45, phosphate C45, and painted phosphate C45 immersed in fire extinguishing solution.
Highlights
The personal protective equipment against falls from heights is used by workers to prevent falling during their working activities [1]
To study the corrosion behavior of the three types of samples depending on the imTo study the corrosion behavior of the three types of samples depending on the mersion time in the fire extinguishing solution, they were placed in hermetically sealed immersion time in the fire extinguishing solution, they were placed in hermetically sealed glass containers, in which 40 mL of FES was added
78 days of immersion inextinguishing fire extinguishing solution, the circuit shown in Figure was used
Summary
The personal protective equipment against falls from heights is used by workers to prevent falling during their working activities [1]. Connectors are components of the safety system that have the role of linking the other elements of the system or assuring the connection between the equipment and the anchoring point. Considering their shape and characteristics, there are two common types of connectors: the carabiners and the hooks [3,4]. Depending on the field in which the personal fall protection equipment is used, the connectors are made of aluminum or steel [5]. Steel connectors are used in areas where high mechanical properties are required such as construction engineering or firefighting operations while aluminum connectors are used when the weight of the fall arrest system is indicated to be small, for example, in mountaineering [6]. Steel connectors have a higher mechanical strength than aluminum connectors, their biggest limitation is related to their low corrosion resistance [7]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
