ATST TC Stick-up Nozzles
Tungsten Carbide Stick-up Nozzle with Aluminium Jacket
The ATST range comprises of Tungsten Carbide lined “stick-up” nozzles with Aluminium Jackets. “Stick-up” nozzles fit directly into the blast hose without using a nozzle holder – this allows for increased maneuverability in restricted areas such as behind re-enforcement beams. Tungsten Carbide is the liner material of choice for the majority of contractors due to long life and impact resistance – the aluminium jacket adds to the rugged character of the nozzle.
Kelvinstraat 8
1704 RS Heerhugowaard
The Netherlands
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- More than 50 years of experience
- Airblast offices in 12 countries
Product description
The ATST series is available for use with 25 mm and 32 mm blast hose.
Airblast high velocity venturi style nozzles have been designed to maximize blast cleaning rates and provide uniform abrasive distribution. The venturi design accelerates the air / abrasive mix as it exits the nozzle providing additional momentum – this can increase productivity and reduce abrasive consumption by up to 40% when compared with straight bore nozzles.
Airblast offers a full selection of nozzles with various orifice sizes, nozzle lengths, insert and liner materials. Contact Airblast to discuss which nozzle is most suitable for your specific application.
ATST Tungsten Carbide Stick-up Nozzles with Aluminium Jacket
| Part no. | Description | Orifice | Length | For hose ID |
| 2116000 | ATST–5/25 TC Stick/up Nozzle | 8.0 mm | 115 mm | 25 mm |
| 2117000 | ATST–6/25 TC Stick/up Nozzle | 9.5 mm | 115 mm | 25 mm |
| 2118000 | ATST–5/32 TC Stick/up Nozzle | 8.0 mm | 115 mm | 32 mm |
| 2118100 | ATST–6/32 TC Stick/up Nozzle | 9.5 mm | 115 mm | 32 mm |
| 2118200 | ATST–8/32 TC Stick/up Nozzle | 11.0 mm | 115 mm | 32 mm |
Compatibility guide
| No. | Nozzle Orifice | Recommended range | Minimum Blast Machine capacity | Minimum Pipe ID | Blast Hose ID | Minimum Air Hose ID | |
| m³/min | CFM | ||||||
| 3 | 5.0 mm | 1.27 – 2.29 | 45 – 81 | 60 ltr. | 1” | ¾” | 1” |
| 4 | 6.5 mm | 2.29 – 3.88 | 81 – 137 | 60 ltr. | 1” | 1” – 1¼” | 1¼” |
| 5 | 8.0 mm | 3.88 – 5.55 | 137 – 196 | 100 ltr. | 1” | 1” – 1¼” | 1¼” |
| 6 | 9.5 mm | 5.55 – 7.19 | 196 – 254 | 200 ltr. | 1¼” | 1¼” | 1½” |
| 7 | 11.0 mm | 7.19 – 9.57 | 254 – 338 | 200 ltr. | 1¼” | 1¼” – 1½” | 2” |
| 8 | 12.5 mm | 9.57 – 15.52 | 338 – 548 | 200 ltr. | 1¼” | 1½” | 2” |
Note: Best performance is obtained when sizes of nozzle, blast machine piping, blast hose and air hose are properly matched.
- m³/min and CFM range is based on blasting at 7 bar (100 psi) for the life of the
- Blast machine capacity should allow 20 to 30 minutes of blasting.
- Hose ID should be three to four times the size of the nozzle
Nozzle pressure / Nozzle diameter guide
| ORIFICE (mm) (“) | 60 PSI | 4.2 BAR | 70 PSI | 4.9 BAR | 80 PSI | 5.6 BAR | 90 PSI | 6.3 BAR | 100 PSI | 7.0 BAR | 120 PSI | 8.5 BAR | |||
| 5.0 mm 3/16” | 30.0 171.0 7 | 0.85 77.00 5.3 | 33.0 196.0 8 | 0.93 89.00 5.6 | 38.0 216.0 9 | 1.08 96.00 6.4 | 41.0 238.0 10 | 1.16 108.00 7.1 | 45.0 264.0 10 | 1.27 120.00 7.5 | 58.0 375.0 12 | 1.64 170.00 9.0 | Air Abrasive Power | CFM Lbs./hr. hp | m³/min KG/hr. * kw |
| 6,5 mm 4/16” | 54.0 312.0 12 | 1.53 141.00 9.0 | 61.0 354.0 14 | 1.73 160.00 10.1 | 68.0 408.0 16 | 1.93 185.00 11.6 | 74.0 448.0 17 | 2.10 203.00 12.4 | 81.0 494.0 18 | 2.29 224.00 13.5 | 105.0 660.0 22 | 2.97 300.00 16.2 | Air Abrasive Power | CFM Lbs./hr. hp | m³/min KG/hr. * kw |
| 8.0 mm 5/16” | 89.0 534.0 20 | 2.52 242.00 15.0 | 101.0 604.0 23 | 2.86 274.00 19.1 | 113.0 672.0 26 | 3.20 305.00 20.2 | 126.0 740.0 28 | 3.57 335.00 21.0 | 137.0 850.0 31 | 3.88 385.00 22.9 | 160.0 1.050.0 37 | 4.53 476.00 27.5 | Air Abrasive Power | CFM Lbs./hr. hp | m³/min KG/hr. * kw |
| 9.5 mm 6/16” | 126.0 764.0 28 | 3.57 346.00 21.0 | 143.0 864.0 32 | 4.05 392.00 24.0 | 161.0 960.0 36 | 4.56 425.00 27.0 | 173.0 1.052.0 39 | 4.90 477.00 28.9 | 196.0 1.152.0 44 | 5.55 523.00 33.0 | 235.0 1.475.0 52 | 6.65 669.00 39.6 | Air Abrasive Power | CFM Lbs./hr. hp | m³/min KG/hr. * kw |
| 11.0 mm 7/16” | 170.0 1.032.0 38 | 4.81 468.00 28.5 | 184.0 1.176.0 44 | 5.21 533.00 32.6 | 217.0 1.312.0 49 | 6.14 595.00 36.4 | 240.0 1.448.0 54 | 6.80 657.00 40.1 | 254.0 1.584.0 57 | 7.19 719.00 42.4 | 315.0 2.050.0 69 | 8.92 930.00 50.9 | Air Abrasive Power | CFM Lbs./hr. hp | m³/min KG/hr. * kw |
| 12.5 mm 8/16” | 224.0 1.336.0 50 | 6.34 606.00 37.5 | 252.0 1.512.0 56 | 7.14 686.00 42.0 | 280.0 1.680.0 63 | 7.93 762.00 46.9 | 309.0 1.856.0 69 | 8.75 842.00 51.8 | 338.0 2.024.0 75 | 9.57 918.00 56.3 | 410.0 2.650.0 90 | 11.61 1.202.00 67.6 | Air Abrasive Power | CFM Lbs./hr. hp | m³/min KG/hr. * kw |
Chart shows calculated consumption rates of air and abrasive for new nozzles. When slecting a compressor add 50% to above figures to allow for normal nozzle wear and friction loss.
* Based on abrasive density of 1,5 kgs. per liter.
NOTE: Figures may vary depending upon working conditions. To maintain desired air pressure as nozzle orifice wears, air consumption increases.
The effects of nozzle wear on air consumption must be considered when selecting nozzles and the compressors that support them.
