Specification |
Description |
Part Number |
U-1/2 |
Manufacturer |
Festo |
Mounting Position |
Optional |
Operating Pressure |
0 MPa to 1 MPa (0 bar to 10 bar) |
Flow Rate |
Up to 10,300 l/min |
Operating Medium |
Compressed air according to ISO 8573-1:2010 [7:-:-] |
Sound Pressure Level |
82 dB(A) |
Ambient Temperature |
-10 °C to 70 °C |
Product Weight |
58.2 g |
Pneumatic Connection |
G1/2 |
Material |
Shock absorber insert made of PE |
RoHS Compliance |
Yes |
The Festo U-1/2 is a high-performance pneumatic silencer designed to efficiently reduce noise levels in compressed air systems. With its robust construction and optional mounting position, it offers flexibility and reliability in various industrial applications. The silencer supports a wide operating pressure range and a high flow rate, making it suitable for demanding environments. Its compliance with RoHS standards ensures it meets environmental and safety regulations. Ideal for use in systems where noise reduction is critical, the Festo U-1/2 provides a durable and effective solution for maintaining a quieter workspace.
The Festo U-1/2 is a high-quality pneumatic silencer designed to effectively reduce noise levels in industrial environments. Engineered for versatility, it can be mounted in any position, making it suitable for a wide range of applications. This silencer operates efficiently within a pressure range of 0 to 10 bar and is compatible with compressed air as per ISO 8573-1:2010 standards. With a robust aluminium housing and a polyethylene shock absorber insert, it offers durability and low corrosion risk, conforming to RoHS standards. The Festo U-1/2 ensures a sound pressure level of 80-82 dB(A), contributing to a quieter and safer workplace. Its lightweight design, weighing approximately 58.2 to 75 grams, and G1/2 pneumatic connection make it easy to integrate into existing systems. Ideal for use in environments with ambient temperatures ranging from -10 °C to 70 °C, this silencer is a reliable choice for maintaining optimal acoustic conditions in pneumatic systems.