LOCTITE® 567

Features and Benefits

This low strength, high-viscosity thread sealant is UL classified and ideal for tapered, coarse threads. It’s specially formulated to offer easy assembly and removal.
LOCTITE® 567 is a white, 1-part thread sealant designed for the locking and sealing of tapered metal pipe threads and fittings. As an anaerobic-curing thread sealant, it cures when confined in the absence of air between close fitting metal surfaces and prevents loosening and leakage from shock and vibration. Its high lubricating properties prevent galling on stainless steel, aluminum and all other metal pipe threads, and allows ease of disassembly. The product offers high temperature performance and oil tolerance. And it tolerates minor surface contaminations from various oils, such as cutting, lubrication, anti-corrosion and protection fluids. Meets the performance requirements of KIWA GASTEC QA AR 214 for admixtures up to and including 100% hydrogen gas – certifications are available in select countries.
  • Ideal for metal pipes and fittings
  • Provides an instant low pressure seal
  • NSF/ANSI 61 certified for potable water systems
  • UL MH8007 & ULC MH27131 classified for natural gas systems
  • Meets KIWA GASTEC QA AR 214 performance requirements for hydrogen gas systems
  • Single component - clean and easy to apply
  • Doesn’t creep, shrink or block systems
  • Thixotropic and high/very high viscosity
Read More

Technical Information

Agency approvals / certificates / specifications UL
Applications Pipe sealing, Thread sealing
Breakaway torque, Steel M10 12.0 N·m (110.0 in./lb. )
Colour Off white
Cure type Anaerobic cure
Key characteristics Immediate low pressure sealing, Oil tolerant, Strength: low Strength, Temperature: high temperature, Thixotropic
Operating temperature -55.0 - 200.0 °C (-65.0 - 400.0 °F )
Physical form Paste
Recommended for use with Metal, Metal: aluminium, Metal: steel - galvanized steel, Metal: steel - stainless steel, Thread type: coarse, Thread type: tapered
Viscosity, 20 RPM 540000.0 mPa·s