Both our slurry and dry ice blasting services in Houston give customers the cleaning experience they desire. Our blasting services in Houston remove grime, dirt, and other substances without the need to disassemble appliances or machinery. From cleaning turbines in power generator plants to cleaning industrial grills in restaurants, our slurry and dry ice blasting processes meet different industry demands across different industry verticals.
The slurry blasting process is when you mix water with abrasives to help prepare a surface for ice blasting. Our abrasive slurry blasting method works on a variety of surfaces, including glass media. Dust levels will be suppressed up to 95%. We can safely use this method outdoors and in enclosed environments. The slurry blasting process is as effective as, if not more effective than, sandblasting.
CO2 blasting cleaning, or dry ice blasting, is a non-abrasive technique that can completely clean a surface. From tight angles to maneuvering around wires and nails, this is the best method to use on your machines. You won’t experience any secondary waste after we complete our CO2 blast cleaning services.
Fast and powerful Minimal to no clean up Non-abrasive Safe and environmentally friendly
Accommodates a majority of projects and is especially suited for graffiti removal It cleans fiberglass, concrete, stone walls, masonry, sidewalks, and brick
The largest media diameter available for the toughest cleaning applications and surface preparation It cleans petrochemical, road markings and lines, bridges, heavy coatings from steel ship hulls
Unlike other blast media, dry ice has a temperature of -109°F (-78.3°C). Because of the temperature difference between the dry ice particles and the surface being treated, thermal shock occurs during the process of dry ice blasting. This causes a breakdown of the bond between two dissimilar materials.
Contaminants can be dry, wet, hard or soft. Dry contaminates will break up into small chips and can be swept up or vacuumed. If the particles are large enough, they do not become airborne. If the contaminate is wet, such as grease or oils, the stream will move or push the liquid away much like a high pressure water stream would, except that the surface where the contaminate was will be dry and clean. To prevent redeposition, the operator should work in a methodical way, from the top down.
