Bearings
Linear Bearings & Shaft
Linear Ball Screw Drive
Linear Ball Screw Nut
Quick Code: BB-532847
NND25X10 R N/S WPR CI Ewellix Ball screw nut
The NND25X10 R N/S WPR CI Ewellix Ball screw nut is a precision-engineered linear ball screw nut designed to convert rotary motion into linear motion with exceptional accuracy and repeatability. This round-flanged nut features composite material construction, making it an ideal solution for demanding industrial applications requiring reliable linear actuation while minimizing weight and reducing magnetic interference.
Key Specifications:
- Brand: Ewellix
- Article Type: Nut for rolled shaft
- Inner Diameter: 25mm
- Material: Composite
- Flange Type: Round
- Number of Mounting Holes: 3
- Sealing Type: Brush wipers
- Reference: NND25X10 R N/S WPR CI
Features & Benefits:
- Composite material construction provides lightweight performance and eliminates magnetic properties for sensitive applications
- Brush wiper seals effectively protect against contamination and debris while maintaining smooth operation
- Round flange design with three mounting holes ensures secure installation flexibility for various mounting configurations
- Engineered for high accuracy and repeatability in precision linear motion systems
- Ideal for applications where weight reduction and non-magnetic properties are advantageous
Applications:
This composite linear ball screw nut is well-suited for:
- Linear actuators and automation systems
- Machine tool positioning and feed mechanisms
- Industrial equipment requiring precise linear motion
- Applications demanding high accuracy and repeatability
- Systems where reduced weight and non-magnetic characteristics are critical
- Environments where brush wiper seals protect against contamination
The robust composite construction combined with precision brush wiper seal design ensures reliable performance and extended service life in challenging industrial environments. This nut delivers the accuracy and dependability required for demanding positioning and linear motion applications.

