What is Wet abrasive blasting / wet vapour blasting
WET ABRASIVE BLASTING
Wet abrasive blasting (also known as vapour abrasive blasting) removes coatings, contaminants, corrosion and residues from hard surfaces. It’s similar to dry blasting, except that the blast media is moistened prior to impacting the surface.
The main advantage of vapour abrasive blasting over dry blasting is that it reduces dust, allowing for operators to work in a wide range of environments with minimal setup and cleanup costs. It results in a cleaner, more consistent finished, ready to coat, with no embedded particles or clinging dust.
Vapour abrasive blasting is alternatively referred to as wet blasting, wet abrasive blasting, vapour blasting, slurry blasting, wet sandblasting and dustless blasting.
Vapour Abrasive / Wet Abrasive Blasting Methods
Media & Abrasives
Media refers to materials that do not create a surface profile upon impact. These include both inorganic and organic materials. Abrasives include any blast material that creates a surface profile (or anchor pattern) upon impact. Surface coatings adhere more strongly to profiled surfaces.
What Happens Upon Impact
When abrasive blasting impacts a hard surface, the particle often breaks or shatters, propelling finer particles into the air as dust, and to dust already present in the dry media. This impact can also cause dry sparks charged with static electricity.
When wet abrasive impacts a surface, fine particles are sequestered in water droplets. The additional water weighs the particles down, preventing dust.
The presence of water also transfers more mass on the particle at impact. As the water droplet disperses, the hydrostatic force blasts away surface coating, leaving a feathered edge around the perimeter for seamless re-coatings.
Wet/Abrasive Blasting Applications
Wet abrasive blasting can substitute for sandblasting for basically any application, but there are surfaces, conditions and environments for which wet blasting is especially advantageous.
Alongside Other Workers
Dust from dry blasting presents not only an inhalation health hazard, but severely limits visibility. Dry blasting operations must be separate from normal operations, wet blasters can work in close proximity with other workers with minimal precautionary measures.
Dry blasting can cast dry sparks charged with static electricity which can lead to explosions in the presence of flammable gases. Wet blasting does not completely eliminate sparks, but when sparks occur they are cold sparks (without static electricity), minimizing the explosive potential.
Wet blasters can operate effectively at lower PSI, removing coatings without damaging the underlying substrate. Vapour abrasive blasting is a preferred method for blasting antique, fragile surfaces and soft surfaces (including wood). In addition, the presence of lubricating water reduces heat due to friction that can warp metal surfaces.
Dry blasting requires substantial containment/tenting to maintain airborne dust levels within legal limits. In outdoor and urban environments, such containment is not practical or cost-effective. Due to inherent dust suppression, vapour abrasive blasting operations require minimal containment.
History Of Wet Abrasive Vapour Blasting
In 1950, sandblasting was banned in Britain due to concerns over silicosis, an occupational hazard associated with inhalation of silica dust. Shortly after, Norman Ashworth invented the first vapour abrasive blaster there.
In 1966, several European nations followed suit and banned sandblasting, leading to innovation of new wet blasting technologies, notably in Germany, where the first mobile wet blaster was invented, designed explicitly to compete with sandblasters.
Adoption In North America
Wet blasters were imported to North America from Germany in the 90's and Britain in the 00's. In 2009, the first domestically-manufactured wet vapour abrasive blasters – Ecoquip and GeoBlaster – entered the market. In 2013 and 2014 respectively, Ecoquip and GeoBlaster were acquired by Graco Inc., a worldwide leader in fluid handling.
With industry-standard parts that can be sourced locally and improved efficiency due to technological innovations, vapour abrasive blasters are experiencing widespread adoption in the surface preparation industry.
Blasting abrasive comparison
Vapour blasting and wet blasting comparison
True Dustless Blasting is a Myth
Know the facts: there is no such thing as dustless or dust-free blasting in surface prep
Containing a Site for Vapour Abrasive Blasting
Proper containment in the process of surface preparation protects the environment and your bottom line.