Introduction to Rust
Rust is a natural process where iron and iron alloys corrode or oxidize in the presence of oxygen and moisture. It typically forms as a result of exposure to water or humid air. The oxidation occurs when iron absorbs oxygen atoms from the surroundings. This causes the iron’s outer layer to flake off while another layer absorbs more oxygen and flakes off. The flakes are what we see as rust. Over time, with continued corrosion, the thickness of the metal is reduced. Ultimately, the structural integrity of the material can fail if rusting is not controlled.
How Rust Lubricants Work
Rust lubricants work by forming a protective layer on the metal surface that prevents oxygen and moisture from contacting the bare metal. The lubricating film insolates the surface from corrosion-causing elements. The three main mechanisms by which lubricants provide protection are:
Displacement
Highly effective lubricants work on the principle of displacement. They contain non-polar hydrocarbon components that displace water from the metal surface. Water molecules are what facilitate corrosion by allowing oxygen to react with the metal. Displacing water with non-polar lubricating molecules physically blocks the corrosion reaction.
Barrier Formation
Upon application, many rust lubricants leave behind a microscopic barrier film. This barrier film lies over the metal like a coating. It blocks the diffusion pathways of oxygen and moisture, isolating the base metal. Even minor nicks or scratches in the metal remain protected underneath the continuous barrier film.
Cathodic Protection
Some advanced lubricants contain metallic nanoparticles like zinc or magnesium. These metals are more electrochemically active (anodic) than iron. So when the lubricant contacts steel or iron, a galvanic reaction occurs where the more active metal sacrifices itself to protect the steel substrate. This provides cathodic protection to the base metal.
Types of Rust Lubricants
There are different types of rust lubricants available depending on the material they are designed to protect and the environmental conditions. Here are some of the most common types:
Water-Displacing Oil: As discussed earlier, water-displacing oils work by displacement of water molecules from the metal surface using their non-polar hydrocarbon structure. They are effective for protecting indoor steel and iron equipment not directly exposed to moisture.
Synthetic Rust Preventives: Synthetic rust preventives usually leave behind thin microlayer barriers for protection. They contain additives like inorganic salts or non-ferrous metallic compounds to reinforce the barrier. These types are multi-purpose and can be used on a variety of metals for corrosion resistance.
Greases: Grease-based lubricants contain thickening agents that give them a soft, pliable consistency. Greases maintain excellent adhesion and form durable barriers even under vibrations. They are better suited for protecting machine parts subject to sliding friction and moving contact stresses.
Cold-Weather Lubricants: Specialty low-temperature fluids exists for protecting metals at sub-zero conditions where regular oils may congeal. They have advanced additive packages that enable low-temperature fluidity and corrosion resistance down to -50°C.
Selection of the right lubricant type depends on the operational environment and metal properties. Testing small sample patches is recommended to validate effectiveness. Proper surface preparation involving cleaning and degreasing is essential for optimal performance of any rust lubricating product.
Application and Re-Application
Proper application of lubricants is important for achieving the desired protective results. The metal surface must be clean, dry and free of any existing rust scale, oil, dust or loose paint prior. Wiping the surface with a solvent ensures effective bonding between the metal and protective film.
Most lubricants are applied using a brush, roller or spray. Brushing is preferred for application onto joints, crevices and hard to reach areas. Roller coating produces an even, smooth film best for large open surfaces. Spraying allows for uniform coverage of complex assemblies and inner cavities.
Re-application intervals vary depending on the product used and environmental conditions. As a general rule, reapplication is recommended whenever the previous coating deteriorates or wears away exposing the base metal again. Frequent inspections help determine the appropriate re-application schedule. Harsh, wet conditions may require more frequent re-lubrication compared to moderate indoor settings. Following manufacturer guidelines ensures continuous protection.
Benefits of Using Rust Lubricants
These lubricants provide numerous technical and economic advantages over leaving metal surfaces unprotected:
– Prevents costly premature failure of equipment due to corrosion
– Extends usable lifetime and improves return on capital assets
– Avoids production downtime and associated losses from equipment rust-outs
– Lowers long-term maintenance costs by protecting surfaces for years
– Provides insurance against environmental damage from moisture exposure
– Improves appearance and aesthetic value of metal products and structures
– Simplifies protection of complex geometries with spray or dip application
– Minimizes surface preparation needs vs other protective coatings
– Safe, non-toxic formulations protect workers and environment
– Compatible
