Bearings
Rod End Bearings
Female Rod Ends
Female Rod Ends (Gr-Nylon Race)
Quick Code: BB-88741
FPL-M10 10mm Left Hand Rod End Bearing (PHS10L-NYLON)
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Product Specification
AF
17.00mm
Ball Width (W)
14mm
Bore Size
10mm
Housing Depth (H)
10.50mm
Housing Dia (D)
26mm
Length of Thread (L2)
21mm
Shaft Centre Height (L1)
43mm
Thread
M10x1.50
Thread Direction
Left Hand
Reference
PHS10L NYLON
Brand
DUNLOP
Quick Order Code
BB-88741
Product Description
The FPL-M10 10mm Left Hand Rod End Bearing is a high-performance, precision-engineered female rod end designed for versatile industrial and mechanical applications. Manufactured by Dunlop, this robust bearing offers exceptional reliability and smooth pivoting action in challenging environments.
Key Features:
- 3-piece standard design with self-lubricating properties
- Left-hand thread configuration
- Suitable for light to medium-heavy industrial loads
- Exceptional low friction performance
- Outstanding wear resistance
- Maintenance-free operation
- Wide operating temperature range
Technical Specifications:
- Bore Size: 10mm
- Thread: M10x1.50, Left Hand
- Housing Material: Low carbon steel 230M07BP, Zinc plated with color passive finish
- Race Material: GR-Nylon
- Ball Material: Low carbon steel 230M07BP, case hardened electroless nickel plate
Dimensional Details:
- AF (Across Flats): 17.00mm
- Ball Width (W): 14mm
- Housing Depth (H): 10.50mm
- Housing Diameter (D): 26mm
- Length of Thread (L2): 21mm
- Shaft Centre Height (L1): 43mm
Mounting Recommendations:
For optimal efficiency and product life, it is recommended to mount rod ends vertically, with the housing member positioned at the top.
Ideal Applications:
- Automotive suspension systems
- Industrial machinery linkages
- Agricultural equipment
- Construction machinery
- Material handling equipment
- Precision motion control systems
The FPL-M10 rod end bearing provides reliable performance and smooth pivoting action, making it an excellent choice for engineers and designers seeking a high-quality, versatile bearing solution in challenging mechanical environments.


