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Spiralock Hexagon lock nut with flange ISO 4161 Stainless steel A4

Article number
Driving features Hexagon
Material Stainless steel
Material technical A4
Thread direction Right
Thread Metric thread
Info Thanks to its unique thread configuration the Spiralock flange nut offers a perfect solution where a joint must be reliably tightened and locked.Benefits of the Spiralock flange nut are a.o.:
  • Exceptionally resistant to vibration loosening
  • Eliminates need for other locking devices
  • Accepts standard male fasteners (with thread tolerance class 4g6g, 6g, 6h and MJ)
  • Improves joint fatigue life
  • Consistent reusability
  • Eases assembly, reducing assembly time
  • Reduces life cycle cost of threaded jointsBecause of the Spiralock design, threaded joints generally require 10% - 20% greater torque than is required for standard joints, due to the redirecting of some assembly forces from an axial direction to a radial direction. The increase in torque will vary depending on the types of materials and coatings being used (nut, bolt, joint, etc.). This torque/tension relationship should be evaluated in the actual joint to determine the proper torque required to develop the specified tension. Guidance available through our Technology Department.

Specifications

Driving features Hexagon
Material Stainless steel
Material technical A4
Thread direction Right
Thread Metric thread
Info Thanks to its unique thread configuration the Spiralock flange nut offers a perfect solution where a joint must be reliably tightened and locked.Benefits of the Spiralock flange nut are a.o.:
  • Exceptionally resistant to vibration loosening
  • Eliminates need for other locking devices
  • Accepts standard male fasteners (with thread tolerance class 4g6g, 6g, 6h and MJ)
  • Improves joint fatigue life
  • Consistent reusability
  • Eases assembly, reducing assembly time
  • Reduces life cycle cost of threaded jointsBecause of the Spiralock design, threaded joints generally require 10% - 20% greater torque than is required for standard joints, due to the redirecting of some assembly forces from an axial direction to a radial direction. The increase in torque will vary depending on the types of materials and coatings being used (nut, bolt, joint, etc.). This torque/tension relationship should be evaluated in the actual joint to determine the proper torque required to develop the specified tension. Guidance available through our Technology Department.

Standards

ISO 4161

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