Cm352 Corrosion Inhibitor Jun 2026

A critical feature of CM352 is its inclusion of or benzotriazole (BTA) derivatives. These azoles specifically target copper and copper alloys. CM352 forms a chemisorbed film on copper surfaces that prevents the infamous "blue water" phenomenon (copper ion leaching), thereby protecting downstream equipment like heat exchangers and aluminum radiators from galvanic attack.

Turbine towers and nacelles experience condensation cycles. CM352 is applied to bolt threads, gearbox housings, and cooling fins to prevent galvanic corrosion where dissimilar metals meet (e.g., aluminum heat sinks on steel supports).

Typically maintained between 800 and 1,200 ppm as NaNO2cap N a cap N cap O sub 2 cm352 corrosion inhibitor

Regular use significantly increases the surface's resistance to rust and wear, extending the operational life of expensive machinery.

Maximizing Asset Lifespan: The Ultimate Guide to CM352 Corrosion Inhibitor A critical feature of CM352 is its inclusion

Whether you are protecting a $10 million chiller plant, a deep-well oil pump, or a hospital’s steam boiler, CM352 delivers measurable reductions in downtime, maintenance costs, and metal replacement.

Where water remains in the system for long periods, requiring stable, long-term chemical protection. Turbine towers and nacelles experience condensation cycles

For facility managers looking to extend the life of their assets and reduce downtime, CM352 is a solution that deserves a closer look.