Southern Liquid Screed Care Guide


Southern Liquid Screed Care Guide  

Pre Installation Preparation Guide

 To ensure that the SLS screed performs at its best we recommend the following be carried out prior to installing underfloor heating and the pouring of the liquid screed:

  • All pouring areas are to be weather tight and sealed where required
  • Make sure the sub floor is clear of debris and laid flat allowing for the insulation, liquid screed and floor coverings
  • Lay insulation in a staggered form ensuring no movement
  • Incorporate edging strips where required
  • Lay tanking membrane on top of the overlapped insulation (100mm recommended) and tape to ensure all joints are water tight and no leakages can occur
  • Securely fix underfloor heating pipes every 300mm and pressure check to ensure no leakage.
  • Make sure areas is again clear and free from debris


Site Ready for Liquid Screed
Site Ready for Liquid Screed 


Secure UFH pipes ready for Screed
Secure UFH pipes ready for Screed



Site ready for Liquid Screed
Site ready for Liquid Screed


Please ensure that your membrane is laid under your UFH system as shown below


Please note Membrane is laid under the egg carton system
Please note Membrane is laid under the egg carton system


Subject to our site survey you are now ready for your SLS screed to be applied.



Post Installation Guide

 SLS screed is a high quality free flowing, self compacting anhydrite floor screed which offers huge benefits to all aspects of a construction project, including screed installers, builders, underfloor heating designers, main contractors and clients. It is important to pay attention to the treatment of the liquid screed after it has been installed in order to ensure that the maximum benefits can

be extracted. It is equally important that follow-on trades understand the material and how it should be treated in order to ensure that subsequent floor coverings remain trouble free.


Liquid Screed Home Extension
Liquid Screed Home Extension


Post Installation

 Up to 48hrs

SLS screed, having been installed into a suitably sealed building envelope, should be protected from ingress of water and extremes of temperature. External windows and door openings should remain closed in order to allow the screed to set. The screed may be trafficked by light foot traffic after 24 to 48 hours from installation. SLS screed is self-curing and therefore does not require a curing membrane. The finished screed should not be excessively heated during this period, although keeping the environment at or around 20°C is beneficial. Significant air movement across the screed should be avoided in order to reduce the risk of plastic shrinkage cracking.


48 hours to 7 days

After 48 hours the liquid screed is ready to begin drying. It is of significant benefit at this stage to provide as much ventilation as is reasonably practicable, whilst maintaining protection for the screed from ingress of external water. Windows and doors can remain open for as long as possible, assuming conditions allow, during the working day. This will help to provide good air exchange to remove moisture from the air above the screed, and allow the residual moisture to escape. After 72 hours dehumidifiers may be introduced to assist the drying process if desired. Between 72 hours and 7 days any surface laitance should be removed if present by lightly sanding with a rotary floor sander and medium grit sanding disc or other suitable means of removal. Foot traffic can continue during this period.


After 7 days

 The liquid screed can now be loaded and the work area returned to full service. Underfloor heating can be commissioned and run and unlike cement based screeds which cannot be heated for 28 days or force dried at all, SLS screeds can be force dried either using the underfloor heating, or using space heaters and fans. In either case it is important to remove the moisture from the air above the screed either by ventilation, extraction or dehumidification in order to allow the screed to dry properly. This assists greatly with early preparation for floor coverings. If space heaters are used these should not be of the fossil fuel variety e.g. gas burners as the burning of gas emits moisture back into the air reducing the benefit of heating significantly. Electrical or forced air movement heaters are suitable. Protection during the remainder of the construction period should continue in order to protect the liquid screed from re-wetting which could delay the drying period. It is not however desirable that the screed should be covered

with impervious sheeting during construction.


Prior to Floor Covering Installation

 In accordance with the relevant national standards for floor coverings the surface of the screed should be inspected and should satisfy the following:

  1. It should be clean and free from chemicals likely to interfere with adhesion
  2. It should be sound, hard and free from fractures other than planned joints
  3. It should be free from dust, construction debris and loose surface contamination e.g. mud, building adhesive and bricklaying mortar
  4. It should be suitably dry or an approved method of moisture management such as a damp proof membrane or uncoupling technology employed (see additional notes)
  5. Any underfloor heating must have been commissioned and run


Additional Notes

 Moisture testing is carried out using a suitable approved method such as a flooring hygrometer or carbide bomb test. Once dry the floor should cleared of any gross debris and then thoroughly vacuumed to remove any small loose dust and debris. Damp proof membranes can be used on SLS screeds, subject to them being unheated, below 1.5% moisture and them having achieved

sufficient strength to satisfy the mechanical requirements of the application (minimum 28 days old). Due to the potential inaccuracies of using hygrometers at high humidity levels a direct measurement should be used such as Carbide Bomb or oven dried sample. If the floor requires priming any primer should be selected for its suitability for use with calcium sulphate or anhydrite screeds.

If a smoothing compound is to be used it should ideally be one made using calcium sulphate although subject to suitable priming one based on Portland cement could be used. If a cement based smoothing compound is to be used it is often beneficial to select a water dispersible epoxy primer. If the floor is to be tiled a flexible adhesive based on calcium sulphate is likely to offer the most robust combination. Again, subject to suitable priming, it is possible to use an adhesive based on Portland cement. SLS screeds are also suitable to receive epoxy resin toppings subject to suitable preparation and priming. Alternatively it may be desirable to use a

proprietary uncoupling membrane. These are available for both soft flooring such as vinyl or for tile surfaces. It is a recommendation of BS 5385 that natural stone tiles should be uncoupled from heated screeds. The manufacturers of SLS screeds do not generally manufacture or supply primers, adhesives, damp proofing membranes or uncoupling technology. Whilst advice is based on sound principals and qualified expertise it is recommended that in all instances

the relevant manufacturer’s advice should be followed in order to ensure suitable warranties are in place.


 Floor Coverings Pre Installation Guide

At Southern Liquid Screed, we pride ourselves on the quality and accuracy of information and advice we offer to our customers.

Unfortunately there is a considerable amount of misinformation or misunderstanding about the preparation of floor screeds to receive floor coverings. This is particularly true of calcium sulphate screeds. It is true to say that some calcium sulphate screeds leave an obvious, friable and loose laitance on the surface, which needs to be removed.

This is usually achieved by means of light sanding using an STR floor sander with a medium, or 60grit paper, prior to the application of floor covering. The amount of laitance will depend on the mix design at a local level (available sands etc) and it is generally accepted say that this laitance is only an issue from an aesthetic point of view.

Good practice dictates that all flooring substrates should receive a light sanding, and vacuuming to remove dust and debris, as part of floor preparation prior to the installation of floor covering. Furthermore, most adhesive manufacturers will recommend sanding or abrading the surface of all substrates before the application of their adhesives.

These recommendations also include sand/cement screeds and even concrete. It is said that sanding the surface of the screed (or other substrate), not only cleans the floor of dirt and debris from the build process, but opens up the surface to allow the penetration of primers. It also provides a “key” for the adhesive to grip onto. It can be seen from the above that regardless of the presence of any laitance, sanding and vacuuming, is part of the floor preparation process in order to receive floor coverings.

Therefore it is wrong to state that calcium sulphate screeds require sanding when other screeds do not. It is however correct to say that any laitance on the screed will be removed during the floor preparation process, and since the floor is to be sanded anyway, this laitance is not an issue. The floor coverings contractor in general, will have the necessary expertise to determine the level and nature of substrate preparation required for any given floor covering.

Additionally, the suitability of the preparation is likely to affect the floor layers ability to offer a warranty. As sanding of the screed is considered by the relevant trade bodies as part of the general floor preparation requirements, it is extremely important to consider carefully who takes contractual responsibility for the sanding operation.


Southern Liquid Screed Ltd are floor experts, call on us to deliver a 1st class service.


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