S & H Industries 40069 Replacement Ceramic Nozzle FP-5/32" 25 CFM, 3-3/4" Length
S & H Industries 40069 Replacement Ceramic Nozzle FP-5/32" 25 CFM, 3-3/4" Length
- The S & H Industries 40069 Ceramic Nozzle is designed for efficient abrasive blasting applications. With a 5/32" orifice, it delivers a consistent airflow of 25 CFM, making it suitable for various surface preparation tasks.
- Features:
- Durable ceramic construction ensures longevity and resistance to wear.
- 5/32" orifice provides precise control over media flow.
- Delivers 25 CFM at optimal operating conditions.
- Compatible with a range of abrasive blasting equipment.
- Ideal for surface preparation, rust removal, and cleaning applications.
- Compatible with Allsource blaster model 41600
- Specifications:
- Manufacturer: S & H Industries
- Part Number: 40069
- Product Type: Ceramic Nozzle
- Orifice Size: 5/32 "
- Airflow: 25 CFM
- Material: High-grade ceramic
- Compatibility: Fits standard abrasive blasting equipment
- The S & H Industries 40069 Nozzle is also known as a ceramic blasting nozzle, 5/32" sandblasting nozzle, high-flow ceramic nozzle, abrasive blasting tip, and S & H ceramic nozzle.
S & H Industries is a reputable manufacturer specializing in high-quality automotive and industrial tools. With a focus on durability and performance, their products are trusted by professionals for various applications, including surface preparation and finishing.
Q: What is the recommended operating pressure for this nozzle?
A: The recommended operating pressure for the 40069 nozzle is typically between 80 to 100 PSI, but it's advisable to consult your equipment's guidelines for optimal performance.
Q: Can this nozzle be used with different types of abrasive media?
A: Yes, the ceramic construction makes it suitable for use with various abrasive media, including sand, glass beads, and aluminum oxide.
Q: How do I determine when to replace the nozzle?
A: Replace the nozzle when you notice a decrease in blasting efficiency or if the orifice shows signs of wear, which can affect performance.
