Dry Ice Blasting vs Traditional cleaning methods.
Maxjet Enterprises is an environmental demolition firm specializing in both hazmat removal and demolition. With expert level experience, we understand all aspects of demolition, the abatement of asbestos, lead paint, & mould.
No Secondary Waste
Dry Ice Blasting
Frequently Asked Questions
Dry Ice is the solid form of Carbon Dioxide (CO2). CO2 is a colorless, tasteless, odorless gas found naturally in our atmosphere. It is what humans and animals exhale and is vital for plants grow.
Dry ice blasting is similar to sand blasting, bead blasting, or soda blasting where Rice sized pellets made of solid CO2, a non-abrasive media that won’t damage surfaces or equipment, are accelerated in a pressurized high velocity air stream to impact and clean a surface. The accelerated super cooled dry ice pellets (particles) create mini explosions on the surface being cleaned, lifting dirt and contaminants off the underlying substrate.
Dry Ice is stored in an insulated tote with thick insulation to slow down the sublimation. Depending on the climate and thickness of the container, typical dry ice sublimation is approximately 2% to 10% per day.
The range of cleaning applications for dry ice blasting is exceptional while minimizing downtime, maximizing production efficiency and completely eliminating secondary waste where most other blast media leave it behind. Dry ice sublimates (vaporizes) upon impact with the surface. All that remains is the contaminate you are removing. Also, since dry ice vaporizes on impact, the process can be used to clean complicated cavities where typical grit blast media will become trapped.
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. Gummy substances and adhesives are embrittled making them easier to remove.
Contaminates 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
Upon impact, dry ice pellets sublimate to a gaseous state and therefore dry ice particles typically do not ricochet. The removed contaminant is usually washed away by the blast jet stream and does not come directly back into the blast gun vicinity; however, safety glasses must be worn at all times during the operation of the machine.
The dry ice blasting process will not damage the substrate. The size of the dry ice pellets and their velocity can be optimized to remove the contaminate while being non-abrasive to the substrate. The process can clean delicate chrome or nickel plated tools, soft aluminum or brass alloys, wire insulation, and even circuit boards without causing damage.
Yes. In most cases this cleaning process eliminates the need for equipment shut down, masking, cool down, disassembly and transportation of equipment. In fact, dry ice blasting cleans faster when the substrate is hot.
Yes, but not dramatically. The amount of cooling depends on the substrate material, the dwell time of the dry ice blast stream, and the dry ice usage. For example, a 30 inch (76.2 cm) by 30 inch (76.2 cm) rubber mold may have an initial temperature of 325°F (162.8°C). After the tool has been blasted clean (approximately 12 minutes), the temperature of the mold is about 300°F (148.9°C).
Generally, no. The temperature change of the surface being cleaned is small and the corresponding tensile stress will be well below the point of what most molds will encounter during normal heat treatment.
Condensation occurs when the temperature of the substrate falls below the dew point. The dew point varies with climate and the daily weather patterns. When cleaning hot substrates, condensation will rarely occur because the temperature of the surface will stay above the dew point. If condensation does form, you can control it by using heaters, heat lamps, or blow off devices.
A typical ice blasting system operates at 90 psi (6.2 bar) with 150 scfm (4.25 m3/min), however the need depends on the application. Our technical people will determine if a diesel compressor will be needed to provide sufficient supply.
One person can easily roll any of the machines around the plant floor without any special equipment.
There are the same safety issues that are pertinent to using compressed air and to ensure nothing is going to get blown at someone. Another concern is the temperature of the dry ice. At -109°F (-78.3°C), we recommend wearing gloves when coming in contact with the dry ice. Eye and ear protection must be worn at all times.