Implementing a corrosion control program reduces the frequency of part replacements and maintenance downtime. Safety and Handling
Hartzell Propeller Inc. applies CM352 during the assembly process of bolt-on steel counterweights to prevent initial corrosion.
During inspections of staking pins, mounting bolt recesses, and other counterweight surfaces, CM352 is applied after cleaning the area with solvents like CM23 (Stoddard solvent) to restore the protective layer. How it Works: The Science of Protection cm352 corrosion inhibitor
Regular use significantly increases the surface's resistance to rust and wear, extending the operational life of expensive machinery.
The advanced formula penetrates microscopic pores in the metal to push out trapped moisture. During inspections of staking pins, mounting bolt recesses,
In the context of Hartzell Propeller maintenance, CM352 is designated as a mandatory material for the assembly and long-term care of bolt-on steel counterweights. Key Applications and Use Cases
Corrosion is the single most expensive defect in manufacturing and maintenance, often requiring costly rework and component replacement. In the aviation industry, where safety and component longevity are paramount, specialized chemical treatments are required to protect critical parts from oxidation and environmental degradation. is one such specialized consumable material, primarily known for its role in protecting aircraft propeller assemblies and related mechanical components . What is CM352 Corrosion Inhibitor? In the context of Hartzell Propeller maintenance, CM352
CM352 is most frequently referenced in technical service documents for high-performance aircraft components:
Understanding the CM352 Corrosion Inhibitor: A Guide for Aviation and Industry
When working with chemical inhibitors like CM352, standard industrial hygiene practices are essential. Based on typical safety data for similar aviation-grade inhibitors: HC-SL-61-364 - SERVICE LETTER