Loctite 641 anaerobic coaxial adhesive with medium release

222,56 zl PLN

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Cechy szczególne: Klej/uszczelniacz jednoskładnikowy, szczeliny <0, średniodemontowalny

Typ produktu: Klej anaerobowy

Zastosowanie: Połączenie części współosiowych


Anaerobic retaining agent - moderately dismountable adhesive for gluing coaxial parts including bearings on the shaft that prevents them from turning

LOCTITE® 641 is designed to bond coaxial parts and is particularly recommended for applications where subsequent disassembly for inspection is required. The product cures in the absence of air when placed between close-fitting metal surfaces and prevents loosening of joints and leakage caused by shock loads and vibration.

Effective for gaps not larger than 0.15mm

Applications Application

Perfect for parts that will be dismantled in the future, e.g.

  • bonding of bearings mounted on shafts and in seats
  • other coaxial connections

Features and Benefits

  • effective protection against loosening of parts exposed to vibrations
  • It is perfect for parts that are planned to be dismantled periodically.
  • one-component - does not require mixing

Typical properties

Technology acrylic
Compound Dimethacrylate ester
Color Form Yellow liquid
Fluorescence LACK
Ingredients One-component
Viscosity Mean
600.0 mPa.s (cP)
Hardening Anaerobic product
Hardening - option Activator
Application Coaxial fixing
Resilience Mean
Relative density @ 23°C 1.07
Viscosity, Brookfield - RVT, 25 °C, mPa s (cP):
Spindle 2, speed 6 rpm / minute
Spindle 2, speed 20 rpm.

1215 to 2750
Viscosity, EN 12092 - MV, 25 °C, after 180 s, mPa s (cP):
Shear rate 277 s-1
90 to 180
Settling time 20 minutes
Operating temperature -55.0 - 150.0 °C
Shear strength, Steel 12.0N/mm²
Average curing time at 22 °C. 24 hours

Typical Curing Course

Curing speed depends on the material

The curing speed depends on the material used. The graph below shows the shear strength developed over time on steel pins and sleeves w
compared to other materials, tested according to ISO 10123


Curing speed depending on the gap

Cure rate is dependent on gap size Chart below shows shear strength developed over time on steel pins and sleeves
at various controlled gaps; tests according to ISO 10123


Cure speed depending on temperature

The curing speed depends on the ambient temperature. The graph below shows the shear strength developed over time at different temperatures
steel shafts and sleeves tested according to ISO 10123


Curing speed depending on the activator

If curing takes too long or if there are too large gaps, you can speed up the curing process by applying an activator to the surface beforehand. The graph below shows the shear strength developed with time on zinc dichromate coated steel shafts and sleeves using Activator 7471™ and 7649™, tested per ISO 10123

Temperature strength

Durability tests depending on the temperature are presented in the chart below

loctite-641-Strength test depending on temperature


This product is not recommended for use with pure oxygen and/or oxygen rich equipment; nor should it be used for installations with chlorine and other materials
strongly oxidizing.


  1. For best bonding results, clean all surfaces (exterior and interior) with LOCTITE® remover and let them dry
  2. If material is passive or curing speed is too slow, spray Activator 7471 or 7649 onto surfaces and allow to dry
  3. For slip fits, apply the product to the lead-in chamfer on the shaft and inside the sleeve and twist the parts together
  4. For press-fit joints, apply the adhesive carefully to both surfaces and press-fit quickly
  5. For shrink joints, apply the product to the shaft, heat the sleeve to obtain the possibility of free connection
  6. Joint parts should not be fully loaded until full strength is achieved


  1. Heat locally to approx. 200 °C. Hot disassemble


  1. Cured product can be removed with LOCTITE® solvent
    or using mechanical treatment, e.g. with a wire brush


Unless otherwise indicated on the product label, the ideal way to store it is to leave it in closed containers in a cool and dry place. Optimum storage temperature: 8 °C to 21 °C.
Storage at temperatures below 8 °C or above 28 °C may irreversibly change the properties of the product.