1" x 1/2" x 1" Galvanized Reducing Tee Pipe Fitting – Industrial T-Fitting
Model: 888-3013-10604PB
Category: Surface Preparation → Sandblasting Equipment → Fittings, Valves & Pipe Components
Type: 1" x 1/2" x 1" Galvanized Reducing Tee (Industrial T-Fitting)
The 1" x 1/2" x 1" Galvanized Reducing Tee Pipe Fitting (Part #888-3013-10604PB) is a durable, industrial-grade fitting designed to create a branch connection while reducing line size in sandblasting and compressed air systems.
Key Features & Benefits
- 1" x 1/2" x 1" reducing tee for branching and size reduction
- Galvanized steel construction for corrosion resistance and durability
- Allows efficient splitting of airflow or system lines
- Ideal for main line to branch line transitions
- Provides secure, leak-resistant threaded connections
- Suitable for compressed air and sandblasting systems
- Built for industrial and continuous-duty applications
Technical Specifications
- Product Name: Reducing Tee Pipe Fitting
- Part Number: 888-3013-10604PB
- Size: 1" x 1/2" x 1"
- Configuration: Straight Run (1") with Reduced Branch (1/2")
- Material: Galvanized Steel
- Connection Type: Female Threaded (F x F x F)
- Weight: 0.80 lbs
- Application: Sandblasting & Compressed Air Systems
- Condition: New
Compatibility Notes
- Designed for standard threaded piping systems (1" x 1/2" x 1")
- Compatible with a wide range of industrial sandblasting and pneumatic systems
- Ideal for adapting main lines to smaller branch or control lines
- Verify thread type and system compatibility prior to installation
Typical Applications
- Sandblasting system branch line connections
- Compressed air system distribution
- Adding auxiliary or control lines
- Industrial piping requiring size reduction at branch points
Performance Benefits
- Ensures smooth airflow distribution with minimal restriction
- Provides tight, leak-resistant sealing under pressure
- Galvanized finish enhances corrosion resistance and service life
- Supports flexible system configurations and expansions
- Built for reliable performance in demanding industrial environments