FASTENER M6 DISTORTED THREAD FLANGE LO REKLUSE 413-007

10,01 €
Out of Stock

Rekluse Fastener M6 Distorted Thread Flange Locknut, part number 413-007. This locknut features a unique distorted thread design that ensures a secure and reliable fastening solution, particularly in high-vibration environments. It is M6 size, tailored for standard fastening applications. The distorted thread mechanism offers superior locking power, preventing loosening. The integrated flange design distributes load evenly, protecting surfaces from damage. Constructed to withstand repetitive use and harsh conditions in mechanical settings. Ideal for use in dynamic assemblies requiring dependable strain relief. This locknut is an essential component for ensuring the security and stability of mechanical connections, providing consistent performance and reliability in various demanding environments.

Specifications
SKU
RK-413007
Brand
Rekluse
Availability
Out of Stock
General Product Group
Clutch & Transmission
General Product Type
Clutch Hardware
Variant Id
342042
Shipping OptionsShown at checkout
14-Day ReturnsHassle-free
Easy CheckoutCard friendly
Product details

FULL DESCRIPTION

Rekluse M6 Distorted Thread Flange Locknut

The Rekluse M6 Distorted Thread Flange Locknut is meticulously engineered for use in clutch hardware and other mechanical assemblies. This locknut features a unique distorted thread design that ensures a secure and reliable fastening solution, particularly in high-vibration environments.

Key Features:

  • M6 Size: Tailored for standard fastening applications.
  • Distorted Thread Mechanism: Offers superior locking power, preventing loosening.
  • Integrated Flange Design: Distributes load evenly, protecting surfaces from damage.
  • Durable Construction: Built to withstand repetitive use and harsh conditions in mechanical settings.
  • Ideal for Dynamic Assemblies: Provides dependable strain relief in demanding environments.

The M6 Distorted Thread Flange Locknut is an essential component for ensuring the security and stability of mechanical connections, providing consistent performance and reliability.