Fluro Stainless Steel Rod End, 25mm Bore Size, 124mm Long , M24 Thread Size, Metric Thread Standard Female

  • RS Stock No. 185-1424
  • Mfr. Part No. GIRSW25R
  • Brand Fluro
Technical Reference
Legislation and Compliance
RoHS Certificate of Compliance
COO (Country of Origin): DE
Product Details

Rod Ends with female thread and PTFE liner. For use at high dynamic pressure and tension loads in corrosive environments.

Specifications
Attribute Value
Bore Size 25mm
Dynamic Load Rating 118kN
Static Load Rating 122kN
Overall Length 124mm
Material Stainless Steel
Connection Thread Size M24
Connection Thread Standard Metric
Maximum Operating Temperature +250°C
Minimum Operating Temperature -50°C
Connection Gender Female
2 In stock - FREE next working day delivery available
Price Each
£ 203.78
(exc. VAT)
£ 244.54
(inc. VAT)
Units
Per unit
1 - 4
£203.78
5 +
£195.62
Related Products
Ball: AISI 52100 bearing Steel, heat treated, HRC58-64, ...
Description:
Ball: AISI 52100 bearing Steel, heat treated, HRC58-64, Precision ground, polished Body: Carbon steel,clear Zinc plated. Race: PTFE composite Sliding contact surfaces: Steel/PTFE composite.
Ball: 440C Stainless Steel, heat treated, HRC56 min ...
Description:
Ball: 440C Stainless Steel, heat treated, HRC56 min Precision ground, polished Body: 304 Stainless steel Race: PTFE composite Sliding contact surfaces: Steel/PTFE composite.
Ball: AISI 52100 bearing Steel, heat treated, HRC56 ...
Description:
Ball: AISI 52100 bearing Steel, heat treated, HRC56 min, Precision ground polished hard chromium plated Body: Carbon steel,clear Zinc plated. Race: Brass Sliding contact surfaces: Steel/Brass.
IGUBAL® spherical bearings are self-lubricating, designed to run ...
Description:
IGUBAL® spherical bearings are self-lubricating, designed to run dry and are maintenance free The bearings are extremely tolerant to dirt and dust - IGUBAL® can be used in abrasive environments8 to 20mm bore size Low weight (20% of equivalent steel)High rigidity Corrosion and chemically resistant High fatigue strength under changing ...