Straight Swivel 1/8" FNPT x 1/8" F (Compatible with Schmidt Axxiom 4202-500-00)

Model: 888-4202-50000PB
Category: Surface Preparation → Sandblasting Equipment → Hose & Fittings
Type: Straight Swivel / Pipe Fitting

The Straight Swivel 1/8" FNPT x 1/8" F (Part #888-4202-50000PB) is a precision-engineered swivel fitting designed to provide flexible, secure connections in abrasive blasting systems and industrial air or fluid lines. Compatible with Schmidt Axxiom 4202-500-00, this fitting allows for smooth rotational movement, reducing stress on hoses and improving overall system longevity.

Key Features & Benefits

• Compatible with Schmidt Axxiom 4202-500-00
• 1/8" FNPT x 1/8" female connection for standard compatibility
• Swivel design allows rotational flexibility
• Reduces hose stress, twisting, and premature wear
• Ensures secure, leak-resistant connections
• Simplifies installation and alignment in tight spaces
• Durable construction for industrial applications
• OEM-equivalent performance and reliability

Technical Specifications

• Product Name: Straight Swivel
• Part Number: 888-4202-50000PB
• Connection Type: Female NPT x Female
• Size: 1/8" FNPT x 1/8" F
• Weight: 0.10 lbs
• Material: Industrial-Grade Metal
• Function: Flexible Pipe Connection / Rotation
• Application: Sandblasting / Abrasive Blasting Systems / Air & Fluid Lines
• Condition: New

OEM Compatibility

This product is compatible with the following OEM manufacturers:

• Schmidt Manufacturing / U.S. Filter / Axxiom Manufacturing
  • Compatible with Part #: 4202-500-00

Typical Applications

• Connecting air and fluid lines requiring rotational movement
• Reducing stress on hoses and fittings in blasting systems
• Use in pneumatic control and air supply setups
• General-purpose industrial swivel fitting applications

Performance Benefits

• Minimizes hose twisting and mechanical strain
• Extends lifespan of hoses and connected components
• Maintains consistent airflow and system efficiency
• Ensures leak-resistant, secure connections
• Provides reliable performance in high-vibration environments