Guide To Efflorescence
Introduction And Purpose Of The Article
White Chalky Efflorescence on a Concrete Floor Slab
Efflorescence is a fact of life with most concrete. We are hearing more about efflorescence related issues because of the popularity of stained floors. As the trend to have exposed concrete floors grows the industry is struggling with the problem of unsightly efflorescence, especially when it is trapped under a film forming sealer. This is not to say that exterior decorative concrete is immune from efflorescence issues, but problems with interior floors pose a greater challenge and are the focus of this discussion.
This article is meant to be a common sense overview of the major efflorescence issues. We will suggest realistic preventative measures to control the conditions that encourage efflorescence and we will offer remedial suggestions. We will offer useful explanations of this complex phenomenon in practical terms without a lengthy detailed chemical analysis.
Decorative contractors usually get the first phone call when efflorescence shows up on a stained floor. Many things may have contributed to a particular efflorescence plagued project, the least of which may be the work performed by the stain contractor who in most cases is unaware of the preexisting conditions that caused the efflorescence. la ivermectina la puede tomar un diabetico
Stain contractors, concrete finishers, builders, general contractors, the design community and owners are all affected by issues related to efflorescence. We hope this discussion clarifies some of the issues so that efflorescence is better understood and the appropriate measures are taken to prevent its occurrence. The costs associated with efflorescence prevention are minimal when compared to the cost and inconvenience of the remedies, especially when the space is occupied. Efflorescence in itself is not a health problem although it might indicates moisture levels sufficient to support mold. Efflorescence is not a structural issue. It is an aesthetic issue, an issue we would all like to avoid. is ivermectin toxicity reversible?
Efflorescence is the white powdery substance on the surfaces of unsealed concrete and the white blush seen with sealed floors. Efflorescence is caused by vapor migrating through the slab bringing soluble salts to the surface of the concrete. Efflorescence is normally worn off or washed away on unsealed concrete surfaces. In stubborn cases, a mild acid rinse or even a light sandblasting may be necessary. Efflorescence that becomes trapped under sealer is unsightly and is even more conspicuous on darker floors. In worse case scenarios where the vapor cannot pass through the top coat, a urethane and/or an epoxy for instance, hydrostatic pressure can build to create water blisters indicating delamination of the top coat from the concrete. Blistering is rarely seen with acrylics. Acrylic sealers allow the vapor to pass through, but the salt deposits remain behind creating the unsightly blush that prompts owners to call the stain contractor.
Efflorescence requires the movement of moisture. Without moisture movement there would be no efflorescence on the surface to create the problem. Unfortunately, too many finishers (non-ACI Certified Finishers) routinely introduce large amounts of unnecessary “water of convenience” to the mix in order to facilitate concrete placement. Primary efflorescence is caused by the water in the concrete evaporating from the slab leaving behind the soluble salts on the concrete surface. The fact that these salts are actually more soluble in colder temperatures coupled with increased bleed water in cold weather increases the likelihood of efflorescence showing up after winter concrete placement. Contributing further to efflorescence with cold weather pours is the use of calcium chloride to accelerate the set time. High slump concrete and the addition of calcium chloride are major contributors to efflorescence.
Secondary efflorescence is often described as water coming from underneath the slab or water that is introduced from the surface. Likely sources of secondary efflorescence would be a saturated base material, an improperly drained site or excessive amounts of water used by the stain floor contractor during his cleaning process – rinsing off the acid stain residue, for example. When extra mix water and extra soluble salts from calcium chloride are added to concrete placed in cool weather followed by more water from the decorative processes, some degree of efflorescing is bound to occur.
Answers to the following questions would provide some insight into whether a job is a likely efflorescence problem waiting to happen. Are there signs of efflorescence now? Is the property properly drained? Does surface water run towards the foundation? Is there a French drain system? How old is the slab, what time of year was it poured? Was the concrete placed on a saturated sub grade? Was the concrete placed directly on a vapor retarder? Was a granular material placed over the vapor retarder (vapor barrier being the outdated term) and was the base saturated? If a vapor retarder was used, was it carefully taped at penetrations, around the plumbing, for instance? Did the mix design include fly ash? Was a waterproofing admixture used? Was calcium chloride used? How much “water of convenience” was added to the concrete? Was a curing compound or liquid densifier applied? Answers to at least some of these questions can give a stain contractor a heads up before wading into a project completely uninformed and unprepared.
Testing For Vapor Transmission
Even if some answers are provided it behooves the contractor to do some independent fact finding to determine the current vapor transmission rate (VTR). Probably the oldest test method is the Plastic Sheet Test (ASTM-D-4263) which is taping down a clear 18” X 18” sheet of poly and checking 72 hours later for condensation or for a darkened concrete surface. Both are indications of vapor transmission. Another surface moisture test is The Calcium Chloride Test which quantifies the rate of vapor transmission. This is a covered dish that is weighed before and after a twenty four hour period. Both are cost effective measures in determining whether vapor is active.
A note of caution when using these testing methods…the plastic sheet and chloride tests will track moisture movement near the top only. When the atmospheric conditions are similar to the slab conditions the tests might not indicate significant vapor transmission because movement happens when the ambient conditions differ from the slab conditions. Moisture migrates and moves toward cool temperatures. Vapor emissions migrate and move toward heat. Imagine the consequences of the following unpleasant, but very real scenario… the project is completed, the contractor has been paid, the delighted owner takes possession and turns on the HVAC causing vapor in the slab to move towards the warmth or the lower humidity of the conditioned space bringing the whitish minerals with it. If the sealer is acrylic the vapor will pass through leaving the efflorescence. If urethanes or epoxies are on the floor, hydrostatic pressure may build and possibly cause delamination. Efflorescence can occur months or even years after the contractor has left the job due to circumstances similar to those just described or from seasonal ground water seeping under the slab. Testing the surface may not be enough to guarantee an efflorescence free project for years to come. These tests provide “snapshot in time” information. It is important to determine how saturated the slab is and the source and the rate of vapor transmission before prescribing a remedy.
More real time technology comes with instruments like the Wagner Rapid RH (around $400) which gives an accurate reading of humidity below the surface of the slab and the temperature. Visit www. wagnermeters.com for even more moisture testing devices. The benefit of these tools is their accuracy in measuring the moisture levels well beneath the surface whether there is any current movement or not. Given the financial risk, not to mention damage to a contractor’s reputation it makes sense for a contractor to explore procedures that more clearly indicate subsurface conditions in order to avoid the efflorescence problems caused by moisture.
We mentioned that a well drained site and a vapor retarder are deterrents to efflorescence. The case can be made for placing the concrete directly on the vapor retarder or over granular material on top of the vapor retarder. The argument against the granular material is that it may become a saturated “blotter” before the slab is poured adding even more water that has only one way to leave—up. Finishers argue that there will be too much bleed water resulting in dusting, but a 3 or 4” slump concrete batched with water reducers and a well graded aggregate will show very little bleed water. The really important factor here is minimizing water in all the important areas—the sub grade, the concrete itself and the procedures performed by the stain contractor. The first two require some amount of water, but keeping water to a minimum helps ensure that efflorescence is controllable. More on coloring options a bit later.
To give an idea how much water may be available to bring soluble salts to the surface when these factors are not given any consideration let us consider a typical residential slab pour…assume we have a 2” thick blotter course of sand residing between the concrete slab and a vapor retarder. Dry sand weighs approximately 100 pounds per cubic foot. Wetted to achieve compaction, this sand could easily contain 10% moisture by weight, or 10 pounds of water per cubic foot of sand. It will take approximately 167 cubic feet of sand to cover 1,000 square feet of vapor retarder. That figures out to each 1,000 square feet of concrete surface having 1,670 pounds, or 200 gallons of water sitting on the underside of the slab with no where to go but up! Add that amount of water to another 60 or 70 extra gallons of “water of convenience” added by the slab finishers and we may have 270 gallons of extra water moving towards the surface whenever surface conditions are warmer or drier than the slab itself. There is another aspect of this foreboding picture… all this water and its eventual evaporation creates a void matrix that resembles a sponge with large pores and capillaries throughout the matrix, able to wick moisture up and quite willing to act as a hard sponge, capable of absorbing hundreds of pound of water from underneath the slab as well as any rain water or water used by the stain contractor in staining process on the surface.
Imagine the consequences of a fast track project (restaurants have to be the worst) with an acid stained floor on a slab as we just described, a few months old poured late in the year. The grand opening is early spring. The stain contractor, being the sincere person he or she is, has proposed an upgrade from the acrylic sealer in the specifications to an epoxy or urethane because of the heavy foot traffic. The suggestion was approved, epoxy coating it is. Our contractor goes into the project without a clue about the sub grade conditions, vapor retarder, mix design, admixtures, etc. There is one more complication all too familiar to staining contractors—the schedule. The superintendent greets our contractor on Monday with the news that the floor needs to be serviceable Friday morning so that the kitchen stoves and ovens can be dragged in over the weekend. Our contractor feels a bit overwhelmed, but plans the work: clean up the drywall mud today; stains tonight; cleans the residue Tuesday, apply epoxy Wednesday, Thursday is cure day, Friday is open for light traffic. This seems workable, life is good. No matter that the heat is not yet on in the building and the floor is not fully cured out. Our contractor, by the way, does not have walk behind floor scrubbers. Mops and buckets make up the clean up and water removal equipment (more than with a scrubber). This is not an uncommon set of circumstances. What do you suppose the chances are that the stained and coated floor will escape with no efflorescence?
Efflorescence reducing measures are: site surface drainage; a well graded concrete mix with a water reducer to minimize paste; concrete not exceeding a 4” slump; that the concrete be well consolidated (one man vibratory screeds do a great job); placed directly on a vapor retarder and cured in some fashion. All these factors contribute to a concrete that has a minimum amount of bleed water resulting in fewer pores and capillaries that will resist rather than facilitate absorption and movement of moisture… in other words, a dense and relatively impermeable concrete slab.
Now for more specifics…an option to the vapor retarder is a waterproofing admixture to help prevent efflorescence. This is added to the concrete at the plant, but it has a downside. It can pose real problems for the stain contractor since a common ingredient, stearic acid, is hydrophobic in the same way that powdered release agents for stamped concrete are so the waterproofed concrete does not readily accept either acid stains or water base stains. Suggestions in this case would be to open the surface with a sanding screen or a gelled acid to create some degree of profile enabling a better mechanical bond for the water borne stain and eventual sealer or coating.
Water borne stains do not require rinsing; there is no residue (SS Rainbow). Dye stains SS DYE-namic) also do not require rinsing. Each can deliver acid stain- like translucence and mottling when applied by experienced persons.
Helpful mix design factors include ordering a well graded a mix from the ready mix producer. The advantage gained from a well graded mix design is the reduction of the weakest part of concrete, the cement paste (cement and water), making for a denser concrete than with a standard mix. Another important mix design consideration is the replacement of 15% to 20% of the Portland cement with fly ash which contributes significantly to lessening efflorescence. Fly ash brings three important benefits to reducing efflorescence. Fly ash reduces the amount of Portland cement and free lime as well as chemically binding up a portion of the free lime and salts that cause efflorescence. In addition, fly ash requires less water again resulting in a denser paste which aids in keeping moisture from traveling up from the bottom and from the top down. Water reducers of course, are also helpful at minimizing the amount of water and a reduction of cement (paste). The closer a mix design gets to the desired water cement ratio of .45 pounds of water to pounds of cement, the fewer efflorescence issues arise, especially with a mix including fly ash. And forget the old notion that you can’t use integral color with fly ash, you can. Keeping multiple pours consistent with the mix design, sub grade conditions and finishing practices will produce consistent results. Heads up on this one… cold concrete and cold ambient temperatures encourage efflorescence because the salts are actually more soluble in colder temperatures plus concrete tends to bleed more in cooler weather further encouraging the upward transportation of moisture and its passenger, soluble salts. Follow ACI 306 Cold-Weather Concreting procedures whenever possible including raising the placement temperature of the concrete to 60 degrees and then cover overnight to retain the heat. This will encourage a more dense pore and capillary structure and help close down the moisture transportation routes.
Curing becomes important as we recognize that moisture moves much more slowly through denser concrete from either direction. cuantas gotas se toma la ivermectina
When concrete is kept moist for a longer period, especially the first few days, more capillaries and pores fill partially or completely to form a denser and more impermeable matrix that discourages the migration of moisture and soluble salts. Conversely concrete that is placed at a high slump and not cured acts as a sponge, full of miniature raceways allowing easy movement of moisture from the bottom up and top down. Cure and seal membrane type cures poses a problem in that the membrane has to be removed to accept acid stains, so they are not often used. One manufacturer has a thermal degrading wax that breaks down with hot water. Water borne stains (SS Rainbow) are becoming popular and manufacturers are working to formulate compatible curing membranes that will accept subsequent staining. Dye stains like (SS DYE- namic) use no water at all and come in many colors. Wet curing is difficult because it must be continuous and may create discoloration if a plastic sheet has wrinkles.
What Tools Are Available?
Technology that might offer double relief from efflorescence related issues involves the use of chemical liquid densifiers and hardeners. First, manufacturers say chemically hardened floors do not require a membrane sealer. This eliminates the trapped efflorescence problem and also greatly reduces maintenance costs. The chemicals include silicates, silicaonates, polysiliconates, silanes, siloxanes and the new lithiums, to name a few. Some of these are used in conjunction with polished concrete floors. Some are used on floors already acid stained or dye stained and could receive a membrane type sealer. Some of these chemicals have been used for years and some are relatively new to market. Claims vary from product to product and from manufacturer about how far the chemicals penetrate, their permanence and the levels of shine and slip resistance. We know for certain that the big box stores are getting away from vinyl and going to bare concrete. Decorative floor contractors would be well served to explore this technology even for smaller residential stained floors. Secondly, some contractors are following the application of acid stains with silicate type non-film forming sealers generically described as chemical hardeners, densifiers and soluble chloride reducers within a few days of concrete placement (SS Densifier). Efflorescence is reduced as the silicate causes the matrix to become denser as we described earlier. The contractor has the option of adding conventional membrane forming sealers if subsequent VTR tests indicate acceptable levels or may apply a guard (SS Polishing Guard) with possible sacrificial wax (SS Cherry Wax available in Gloss or Matte options).
What To Do When Efflorescence Shows Up Under The Sealer
What are the options when efflorescence rears its ugly head? A fast fix might be to use xylol, xylene or another coat of solvent base acrylic which reemulsifies the original sealer and clears the blush. If vapor continues to come up through the slab though, the condition will most likely reappear. Be aware that if the space is occupied there can be health issues because of solvents like xylene.
The most prudent course of action includes stripping the sealer in order to conduct a test to determine the rate of vapor transfer and then develop a remedial strategy. Soy Gel is a reliable “green” stripper. It is important to get it right the second time so take time to diagnosis the causes as best you can with the information available. One of the more expensive hand held digital instruments may prove to be a valuable tool because they are able to get accurate moisture reading below the surface of the slab. Once the moisture levels are established a sealer can chosen based upon the manufacturer’s recommendations.
Remember that some manufacturers have the vapor inhibiting, non-film forming sealers that we mentioned earlier. These may reduce the vapor transmission rate to a level appropriate for a heavier bodied more abrasion resistant top coat for use in high foot traffic situations. (CP 1007)
Where slabs have continued to have efflorescence problems even after the application of a lithium or silicate densifier contractors have used a finish or polish, which are industrial grade “mop and glow” – low build, low solids micronized acrylic water based products as the final treatment. These finishes and polishes can also be used over film forming sealers to for additional abrasion resistance.
In most efflorescence cases, the stain contractor inherited the problems that contributed to creating the efflorescence. Diagnosing the causes of efflorescence after the floor has been sealed can be difficult. It is important to determine how much moisture exists in the slab, the source of the moisture and also whether conditions, like seasonal ground water might contribute more moisture in the future. Consider vapor testing and resist the quick fix. Finally, contractors may elect to avoid warranty language where sealers are concerned or they may choose to specifically define typical vapor transmission problems. The decorative adage of “test, test, and test” holds especially true for interior stained floors. It means doing a VTR test whenever you suspect there may be the potential for efflorescence problems. Happy staining and remember—education is not expensive considering the cost of “call backs” and you don’t have to take every job that comes your way.
Written by Doug Bannister, concrete enthusiast since the beginning of time.
Decorative Concrete Stamp Rental Program
Beautiful portico that is enhanced by a stamped concrete
We know that not every contractor will want to purchase stamps for that one time job. If your client has requested a stamp that you don’t have, you may be able to satisfy your client by renting from Moon Decorative. You need to know we have 45 sets of decorative concrete stamps — yes, 45 sets of all different types and varieties for countertop, patios and otherwise that are available to you for your renting pleasure. So, if you are a contractor, whom lives near us, and can physically pick up and return stamps, this page is for you. We are so sorry, but this rental program is not something we ship out.
Here are some frequently asked questions about Moon Decorative’s rental program:
Why is stamp rental a great option for both the contractor and the homeowner?
What are the most commonly used stamps?
- The stamps cost less to rent than to buy — significantly less and the rental price can be included in the price of the quoted job.
- There are 45 different sets available to the contractor, thru Moon Decorative’s rental program.
- The contractor can be assured that he can rent stamps that are clean and in good shape for the job at hand.
is a popular design, and now customers are adding Appian Cobblestone
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are a huge favorite because they’re easiest to use, and there are no grout lines to touch up or repair.
Yes, we have stamps to rent!
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It is available to any established contractor. We’ll need a copy of your liability insurance, and possibly a deposit.
How many days can stamps be rented?
They are rented by the day; however, different arrangements are possible if you need them for more than 3 days.
Is there any other important information about concrete stamps that would be important for the contractor?
Moon Decorative has so many different types of stamps available at such a reasonable cost which then allows the contractor to offer a reduced rate to their customers. We urge you to come in and become familiar with our large rental offering, pick up a catalog with picture of the stamp patterns to show your clients.
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