A revolutionary innovation in abrasive nozzle design, the new Saber Blast™ nozzle increases production speeds up to 50%, using advanced gas dynamic concepts to maximize the velocity of abrasives hitting the surface. By viewing the abrasive and air streams as separate components, engineers were able to create the optimal speed/volume relationship between the two components. They developed a revolutionary nozzle design that accelerates abrasive particles to higher speeds using the same air pressure and flow, thus increasing overall efficiency and productivity.
SABER NOZZLE
Saber Nozzles, #8, #10
A revolutionary innovation in abrasive nozzle design, the new Saber Blast™ nozzle increases production speeds up to 50%, using advanced gas dynamic concepts to maximize the velocity of abrasives hitting the surface. By viewing the abrasive and air streams as separate components, engineers were able to create the optimal speed/volume relationship between the two components. They developed a revolutionary nozzle design that accelerates abrasive particles to higher speeds using the same air pressure and flow, thus increasing overall efficiency and productivity.
Saber Nozzle
Technical Data
Temperature Limit
–210°C (–346°F) to 260°C (500°F)
Pressure Limit
ECS-W and ECS-T: 83 bar g (1200 psig)
ECS-B: 55 bar g (800 psig)
Chemical Resistance
pH 0 to 14 inert to all common chemicals except molten alkali metals, fluorine and certain fluorine bearing compounds.
Sealability (ASTM F-37a) @ .7 bar g
ECS-W: 0,04 ml/h
ECS-T: 0,20 ml/h
ECS-B: 0,12 ml/h
Compressibility (ASTM F-36a) @ 5000 psig
ECS-W: 5 to 15%
ECS-T: 7 to 12%
ECS-B: 30 to 50%
Sealability (DIN 3535)
< 0,015 cm3/min
Creep Relaxation (ASTM F-38B)
ECS-W: 25% maximum
ECS-T: 18% maximum
ECS-B: 40% maximum
Recovery (ASTM F-36a) @ 5000 psig
ECS-W and ECS-T: 40% minimum ECS-B: 25% minim
Tensile Strength (ASTM F-152)
2000 psig; (14 MPa)
P x T Factor
12,000 (°C x bar g)
350,000 for 1/16″; (°F x psig)
8,500 (°C x bar g)
250,000 for 1/8″; (°F x psig)