Dry Ice Blasting
349 Morgan St. Layton Utah, 84025
Hours: Monday-Friday
7 a.m -5 p.m.
About us
Velocity’s Dry Ice Blasting is a non-abrasive, non-conductive, non-toxic, and non-flammable method of cleaning. Its unique characteristics make it a more efficient, cost-effective, and environmentally safe cleaning solution.
How does Dry Ice Blasting work?
Dry Ice/Carbon Dioxide pellets are blasted at supersonic speeds using compressed air. These pellets burst on impact and lift contaminants off the underlying surface.
This process produces no secondary waste like other cleaning alternatives. The pellets on impact turn into CO2 gas and are ventilated to atmosphere.
10 Reasons to use Dry Ice Blasting
1.Increased Efficiency
2.Non-Abrasive Clean
3.Non-Conductive
4.Cleans Faster
5.Variety of Applications
6.Cleans in Tight Spaces
7.Environmentally Safe
8.No Secondary Waste
9.Less down time
10.Inhibits Bacteria/Mold Growth
Dry Ice Blasting VS Pressure washing
Dry Ice Blasting is a superior cleaning due to it being non-conductive giving it the ability to be used on and around electronics. No water eliminates the initiation of rust, mold/mildew, or bacterial contamination.
No secondary waste means there is no water or chemical clean up resulting in less downtime.
Dry Ice Blasting is highly efficient and adjustable. The range of cleaning settings is sensitive enough to remove the sticker off an apple and aggressive enough to remove slag from welds.
Automotive Restoration
Our cleaning system can be fine-tuned to efficiently clean any part on a vehicle, eliminating the risk of damaging any sensitive parts. Blast settings can be adjusted to be more aggressive which removes buildup of grease, oils, and dirt; while also more delicate to clean instrumentation, electronics, interior pieces, and panels.
Food Grade Services
Our system cleans food-grade safe surfaces without the use of chemicals while not leaving secondary waste. It also doesn’t add foreign material or allergens reducing the risk of microbial growth and cross-contamination.