If you live in an area of frequent rain and sunny days, efflorescence and its passing may occur quickly. The process may take much longer in drier climates. Typically, efflorescence will stop developing in approx- imately 18 to 24 months.
In many cases, efflorescence will disappear on its own over time (usually after the first year of a paver or retaining wall installation). Efflorescence can also be removed with special cleaners like the Gator Efflorescence Cleaner. On average, you should wait about 60 days before applying an efflorescence cleaner.
Just as it appears naturally, efflorescence will eventually disappear. Over time, rainwater can wash and wear it away. Often times, here in Florida for example, this time frame can be as short as 2 weeks in the rainy season, and as long as 6 weeks during droughts or winter times.
Ultimately, efflorescence itself isn't dangerous. However, it can lead to potential moisture problems that can cause structural damage to building materials. That means if you find efflorescence in the basement or on concrete and other structures, it's important to take action.
Once the water source is eliminated, most efflorescence (also called Calcium Carbonate or limestone) can be removed with abrasive techniques. Dry brushing, light water blasting or light sandblasting followed by flushing with clean water. In large areas, rotary scrubbers with scrubbing pads may also be used.
Overall, efflorescence is a common phenomenon that is individual with each and every case. It is not harmful but can look unappealing and unattractive. However, over time, efflorescence will gradually disappear.
Vinegar and water solution—Efflorescence can be removed by using a dilute solution of household white vinegar and water. A vinegar and water solution is relatively inexpensive, non-toxic, and easy to obtain, mix and apply. Dilution ratio is 20–50% vinegar in water by volume.
After removing initial efflorescence blooms, they should not return. Efflorescence on pavers will eventually stop on its own after the salts in the pavers have dissipated.
Usually efflorescence is more common in the winter when a slower rate of evaporation allows migration of salts to the surface. With the passage of time, efflorescence decreases in severity unless there is recurrent moisture movement through the wall.
Simply sealing concrete from water penetration (using a penetrating sealer) will help prevent efflorescence. V-SEAL creates an incredible water barrier for brick, mortar, and all forms of concrete. To help prevent efflorescence, V-SEAL should be sprayed anywhere brick, mortar or cement will be exposed to water.
Therefore, if efflorescence is present, there is a significant chance of mold growth or other moisture issues may be present. For example, while efflorescence on a garage floor will not cause a problem, the accompanying moisture can cause mold growth on items stored on the floor.
Mold grows, efflorescence doesn't. Mold can grow on just about any surface, whereas efflorescence doesn't spread and forms on cement or brick. Mold is a fungus, efflorescence is moisture that evaporates into salt deposits. Efflorescence will turn into a powder when touched, while mold will not.
We know that efflorescence is a fine, white, powdery deposit of water-soluble salts left on the surface of masonry as the water evaporates. These efflorescent salt deposits tend to appear at the worst times, usually about a month after the building is constructed, and sometimes as long as a year after completion.
The way to stop efflorescence from coming back is to interfere with its three necessary conditions: water soluble salts in the wall; a path for water to get into the wall and dissolve those salts; and a path for that water to reach the wall's surface and deposit the dissolved salts.
Sealing masonry surfaces
The best protection against efflorescence and water damage is to use a penetrating sealer to make the surface entirely waterproof. The products we recommend using are a masonry sealer such as Resistain or Shower Plug.
If it is not taken care of properly, the issue can spread quickly. Efflorescence is not dangerous, but it can lead to moisture problems causing structural damage to building materials. That is why it is important to act when you spot it.
If you live in an area of frequent rain and sunny days, efflorescence and its passing may occur quickly. The process may take much longer in drier climates. Typically, efflorescence will stop developing in approx- imately 18 to 24 months.
Efflorescence appears as a result of salt being pushed to the surface of masonry. It's a painting issue that's easily overcome by the use of Zinsser Watertite®.
RadonSeal Deep-Penetrating Concrete Sealer can immobilize soluble salts and prevent concrete efflorescence from developing.
Pressure washing can work to remove white efflorescence once the surface has thoroughly dried. The surface must be thoroughly rinsed to ensure that no residue remains. We also use a safe detergent to ensure a thorough clean.
These products are specifically formulated to dissolve efflorescence and remove dirt from paving stones and concrete surfaces without causing discoloration or damage. To start the maintenance process, you can use a solution of regular dish soap and water along with a stiff plastic scrub brush.
First, for very mild cases of efflorescence, try a 50/50 mix of white vinegar and water. Using a scrub brush, spot treat and scrub affected areas with the vinegar mix. The acidity in the vinegar helps remove the efflorescence and calcium deposits by breaking down mineral crystals.
It is effective at killing mould, germs, and bacteria, so any stains you have on your wall will be removed by it too. There are a few ways to create the vinegar solution to clean painted walls. All you need to do is create a 50:50 solution of water and white vinegar in a spray bottle.
RadonSeal Efflorescence Cleaner is extremely effective for the removal of efflorescence, dissolved salts, lime, and alkalis. However, lime (calcium hydroxide) in the efflorescence gradually reacts with carbon dioxide in the air (carbonation), forming calcium carbonate (CaCO3).
Efflorescence occurs when water soluble salts travel to the concrete surface. The mineral salts might be a result of the cement hydration reaction or can come from many other sources like sulphate rich sand. Porous concretes, masonry and mortars will be more susceptible to the migration of salts to the surface.