Air Assisted Airless Guns
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Mag II Automatic AIR-Assisted AIRLESS HVLP Spray Gun (U.V. and CONVENTIONAL Coatings)
In the MAG II Automatic HVLP spray gun, the paint or other material to be sprayed is atomized; forced through the carbide tip by the typical 1,500-3,800 psi fluid pressure (with capabilities up to 4,000 psi/275 bar). This atomizing, plus the final shaping air supplied by the air cap, produces an exceptionally fine and even spray pattern. The result of this spray pattern is an even finish that lends itself to products that need an exceptionally fine finish with reduced overspray and VOC emissions.
Mag AA Automatic AIR-Assisted AIRLESS Spray Gun
In the MAG AA Automatic spray gun, the paint or other material to be sprayed is preatomized and forced through the carbide tip by the typical 1,500-3,800 psi fluid pressure (with capabilities up to 4,000 psi/275 bar). As a result of the preatomizing, the final shaping air supplied by the air cap produces an exceptionally fine and even spray pattern. The result of this spray pattern is an even finish that lends itself to products that need an exceptionally fine finish with reduced overspray and VOC emissions.
Mag AA Automatic AIR-Assisted AIRLESS Spray Gun (for UV High Solids Coatings)
In the MAG AA Automatic spray gun, the paint or other material to be sprayed is preatomized
and forced through the carbide tip by the typical 1,500-3,800 psi fluid pressure (with capabilities up to 4,000 psi/275 bar). As a result of the preatomizing, the final shaping air supplied by the air cap produces an exceptionally fine and even spray pattern. The result of this spray pattern is an even finish that lends itself to products that need an exceptionally fine finish with reduced overspray and VOC emissions.
MAG II Automatic Air-Assisted Airless HVLP Spray Gun
In the MAG II Automatic HVLP spray gun, the paint or other material to be sprayed is atomized; forced through the carbide tip by the typical 1,500-3,800 psi fluid pressure (with capabilities up to 4,000 psi/275 bar). This atomizing, plus the final shaping air supplied by the air cap, produces an exceptionally fine and even spray pattern. The result of this spray pattern is an even finish that lends itself to products that need an exceptionally fine finish with reduced overspray and VOC emissions.
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