AS‑410N
Retaining Compound 5543N
High‑strength anaerobic retaining compound designed for bonding cylindrical metal assemblies with enhanced performance and improved gap‑filling capability.
Product Description
AS‑410N Retaining Compound 5543N is a high‑strength anaerobic adhesive engineered for securing cylindrical metal components such as bearings, bushings, sleeves, gears, and shafts. The “N” formulation provides improved performance, offering faster curing, higher temperature resistance, and superior gap‑filling properties compared to standard retaining compounds.
It cures in the absence of air and in contact with metal surfaces, forming a permanent, vibration‑resistant bond that eliminates fretting, corrosion, and micro‑movement. AS‑410N is ideal for demanding industrial, mechanical, and automotive applications requiring maximum holding power and long‑term reliability.
Key Features
High‑strength anaerobic retaining compound
“N” formulation for enhanced performance
Faster curing and improved temperature resistance
Excellent gap‑filling capability
Prevents loosening under vibration and load
Eliminates fretting corrosion and micro‑movement
Resistant to oils, fuels, coolants, and industrial chemicals
Ideal for heavy‑duty cylindrical assemblies
Applications
Bearings and bushings
Shafts, sleeves, and hubs
Gears, pulleys, and rotors
Cylindrical metal assemblies
Automotive and industrial machinery
High‑load and high‑temperature environments
Advantages
Provides maximum holding strength
Enhanced durability with “N” formulation
Prevents wear, corrosion, and loosening
Replaces mechanical fastening methods
Long‑term stability under dynamic forces
Single‑component, easy‑to‑apply formula
Technical Data
Product Code: AS‑410N
Product Name: Retaining Compound 5543N
Product Type: Anaerobic Retaining Compound
Strength Level: High
Curing Mechanism: Anaerobic (absence of air, metal contact)
Gap Filling: High
Temperature Resistance: Enhanced (N‑grade)
Chemical Resistance: Excellent
Viscosity: Medium / High
Application: Cylindrical Metal Assemblies
