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NCMA TEK

ncma TEK. National concrete masonry Association an information series from the national authority on concrete masonry technology CONTROL AND REMOVAL TEK 8-3A. Maintenance (2003). OF EFFLORESCENCE. Keywords: cleaning, efflorescence, maintenance, stain removal INTRODUCTION. Efflorescence is a deposit of soluble salts and bases, generally attributed to water soluble sodium, potassium and usually white in color, that sometimes appear on the surfaces calcium. These solutions either precipitate as hydroxides or of masonry or concrete construction. Although it may be an combine with atmospheric carbon dioxide and sulfur triox- aesthetic concern, efflorescence will not affect structural ide. The compounds produced by the combination of these performance. elements are white or yellow salts, all of which are less water Often efflorescence is apparent just after the structure is soluble than their former hydroxide counterparts.

NCMA TEK National Concrete Masonry Association an information series from the national authority on concrete masonry technology CONTROL AND REMOVAL

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1 ncma TEK. National concrete masonry Association an information series from the national authority on concrete masonry technology CONTROL AND REMOVAL TEK 8-3A. Maintenance (2003). OF EFFLORESCENCE. Keywords: cleaning, efflorescence, maintenance, stain removal INTRODUCTION. Efflorescence is a deposit of soluble salts and bases, generally attributed to water soluble sodium, potassium and usually white in color, that sometimes appear on the surfaces calcium. These solutions either precipitate as hydroxides or of masonry or concrete construction. Although it may be an combine with atmospheric carbon dioxide and sulfur triox- aesthetic concern, efflorescence will not affect structural ide. The compounds produced by the combination of these performance. elements are white or yellow salts, all of which are less water Often efflorescence is apparent just after the structure is soluble than their former hydroxide counterparts.

2 Chlorides completed. If the efflorescence is essentially uniform through- are usually a result of contamination of masonry units and out the exterior facade, it indicates normal water loss from the sand by sea water or runoff from alkaline soils. Since chloride materials and the building. Some identify this occurrence as salts are highly soluble in water, rain will often wash them off. early age efflorescence or new building bloom . If unat- The amount and character of the deposits vary according tended, the salts will eventually be removed by rain water. to the nature of the soluble materials and the atmospheric If the deposit is heavy and essentially shows as white conditions. Efflorescence is particularly affected by tempera- streaks immediately below mortar joints or covering localized ture, humidity and wind.

3 In the summer, even after long rainy areas of the masonry , it indicates that water has entered or is periods, moisture evaporates so quickly that comparatively entering the wall at a higher elevation. These salts are called small amounts of efflorescence are brought to the surface. leachates, referred to lime spots , lime runs and lime Thus, efflorescence is more common in the winter when a deposits ; and are sometimes identified as late age or slower rate of evaporation allows migration of salts to the recurrent efflorescence. Late age or recurrent efflorescence surface. In spring, condensation frozen within the masonry usually consists of more permanent surface accumulations may be released by warm weather allowing for further solu- and indicates a need for corrective measures. bilizing of compounds and their migration to the surface.

4 This TEK discusses the various mechanisms which With the passage of time, efflorescence becomes lighter and cause efflorescence and presents recommendations for its less extensive unless an external source of salts or recurrent control and removal. water migration is present. In most cases, compounds that cause efflorescence are CAUSES OF EFFLORESCENCE water soluble and are left on the surface as the water contain- ing them evaporates. Sometimes, however, chemicals in the A combination of circumstances causes efflorescence. construction materials react with chemicals in the atmo- First, there must be soluble compounds in the masonry . sphere to form the efflorescence. In the case of concrete Second, moisture must be present to pick up the soluble salts masonry or mortar, the hydrated cement contains some and carry them to the surface.

5 Third, some force evapora- calcium hydroxide (soluble) as a product of the reaction tion or hydrostatic pressure must cause the solution to between cement or lime and water. When this calcium move. If any one of these conditions is eliminated, efflores- hydroxide is brought to the surface by water it combines with cence will not occur. carbon dioxide in the air to form calcium carbonate (slightly soluble), which then appears as a whitish deposit. Source of Salts Cements used in the production of mortar and concrete The individual elements and compounds associated with masonry units contain small amounts of water soluble com- efflorescence may be present in concrete masonry units, pounds of sodium and potassium. Such water soluble alkalis, mortar and grout. However, efflorescence of masonry is present as only a few tenths of one percent, can appear as TEK 8-3A 2003 National concrete masonry Association efflorescence when leached out of the masonry by migrat- cal.

6 Details that will direct water collection away from ing moisture and concentrated at some point on the wall tops and horizontal surfaces should be considered. If surface. architecturally feasible, wide overhanging roofs help In addition to the masonry materials, building protect walls from rainfall. trim such as concrete copings, sills and lintels may also Parapets require special attention because of their contain considerable amounts of soluble compounds. Some exposure. Flashing should be installed in locations where admixtures or ground water may also contribute to efflo- water will tend to accumulate ( , parapets, spandrels, rescence. Most admixtures are proprietary and their lintels, base of wall) within the masonry . The flashing compositions are not disclosed. Accordingly, the efflores- should be installed to direct the water outward through cence potential of such admixtures should be determined weep holes.

7 By experience or laboratory tests. Dispersing agents used Joints between masonry and door and window openings in pigments may increase the potential for efflorescence. should be given careful attention during design as well as construction. Backer rods and sealants should be properly Sources of Moisture selected and installed in the same careful manner as other Water serves as the vehicle by which soluble salts and elements in the structure. TEK 19-2A Design for Dry Single- bases are transported to the surface, where they accumu- Wythe concrete masonry Walls and TEK 19-4A Flashing late as the water evaporates. The primary source of mois- Strategies for concrete masonry Walls (refs. 4, 7) provide a ture is rain water. Rain water may enter the wall through more complete discussion on the proper use of flashings and one or more of the following paths permeable masonry details to minimize water entry.

8 Units, partially filled mortar joints, inadequate flashing Numerous surface treatments are available for the con- and sealing details, and cracks or other openings in the struction of weathertight concrete masonry walls. Properly wall. applied, coatings can be relied on to give a satisfactory Considerable moisture may also enter a masonry wall weathertight concrete masonry wall for up to 10 years in most as vapor from the interior of a building and accumulate geographic areas. Clear water-repellent surface treatments within the wall as it condenses. Excessive accumulation of decrease efflorescence by repelling water from entering the condensed water vapor may lead to efflorescence. masonry . However, the application of clear coatings to a A third source of moisture that may contribute to the masonry wall that has the tendency to effloresce, without future formation of efflorescence is water that enters the reducing the mechanisms for the occurrence of that efflores- masonry during construction.

9 Improper protection of ma- cence, may lead to surface spalling of masonry units or sonry during and after construction can allow consider- deposits on the interior and/or exterior surface of the surface able moisture to enter, which can cause efflorescence. treatment. masonry in contact with soil, such as in basement and The designer and owner may also want to consider the retaining walls, may absorb ground water containing use of integral water repellents in the masonry . Integral water soluble salts. Through capillary action, salts present in repellent admixtures have been shown to reduce the tendency the soil may rise several feet above the ground, producing to effloresce, since they reduce water migration throughout an accumulation of salts in the masonry . the wall. For more information on surface treatments and integral water repellents see TEK 19-1 Water Repellents for CONTROL OF EFFLORESCENCE concrete masonry Walls (ref.)

10 15). Since many factors influence the formation of efflo- Materials rescence, it is difficult to predict if and when it will In the selection of masonry materials, all component appear. However, to reduce the probability of efflores- parts masonry units, mortar and grout should be consid- cence occurring in masonry construction, it is necessary to ered for their soluble salt content. minimize the amount of soluble salts and moisture present At present there is no standard test for evaluating the in the masonry . Of the two, moisture is the more easily efflorescence potential of concrete masonry units or mortar. avoided. However, in light of this absence, Standard Test Methods of Sampling and Testing Brick and Structural Clay Tile, ASTM. Design C 67 (ref. 13) which does contain a test method to esitmate The reduction of moisture in concrete masonry will efflorescence potential, is occasionally specified to evaluate minimize the mechanisms that cause efflorescence.


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