Tel: 01472 600050

We are a local established business based in North East Lincolnshire. We provide our Damp Proofing, Woodworm and Dry Rot Specialist Treatment Services to Grimsby, Cleethorpes, Scunthorpe, Brigg, Lincoln, and Louth, plus surrounding areas.

Please feel free to browse our website and to contact us if you have any further queries.

   
Why Use Damp Specialists?

A damp proof course is one the most integral parts of an older property. When it fails it may be one of the most expensive parts to remedy. Without a functional damp course ground water, around and beneath the foundation of the property, rises up the walls (by a process called
capillarity) and affects internal decoration and plasterworks.
 
The damp control industry, as a whole over the last few years, has seen a large influx of poorly trained experienced tradesmen and companies. They are usually not qualified in the diagnosis of damp, timber & rot control. Most often they misdiagnose and price work that is wholly unnecessary.

The remedial work is then carried out by untrained workmen and stands little chance of being successful. Guarantees given subsequently are worthless and furthermore once the house holder realises the initial problem remains the company will have usually disappeared and ceased-trading.
   
 Don't risk your home, along with expensive and time consumed decorations, only use specialists. Call The Damp Experts!!  

Rising Damp

Rising damp is not the most common form of dampness encountered in buildings; this is left to condensation. However, it is very likely that a high proportion of older buildings are affected by rising damp to some degree or another, and it does cause problems with positive identification, appropriate remedial action and ancillary works.

It may be defined as the vertical flow of water up through a permeable wall structure, the water being derived from ground water. The water rises through the pores (capillaries) in the masonry by a process loosely termed ‘capillarity’. In other words the masonry acts like a wick. The height to which the water will rise depends on several factors including pore structure and rate of evaporation. Masonry containing a high proportion of fine pores will allow the water to rise higher than a coarse pored material; basically the water is carried up the wall in the finer pores and not those of large diameter. The average size of pores in masonry gives a theoretical rise of around 1.5 meters but where evaporation is severely retarded, for example by the use of impervious membranes, moisture can sometimes rise in excess of 2 metres.

The major paths through which the water rises are the mortar beds; this is illustrated in Figure 1. For water to rise through the bricks then it must cross a mortar bed. In effect the mortar beds form the only continuous pathways for water rising through the wall. If a house is built from impervious bricks then water can still rise through the mortar bed but if an impervious mortar is used then no water will rise even if the bricks are very porous. The mortar beds will form an important part in our injection cream treatment for rising dampness.

GROUND WATER

Ground water also contains small amounts of soluble salts, the most significant of which are chlorides, nitrates and sulphates. These pass with the water in solution up the wall and are left behind when the water evaporates.

Over many years of active rising dampness large quantities of these salts accumulate within the masonry and decorative surface, most becoming concentrated in a general ‘salt band’ towards the maximum height of rise as illustrated in Figure 2. Frequently, the concentrations of these salts are very low towards the base of the wall.

Both chlorides and nitrates are usually hygroscopic, i.e., they can absorb moisture from the surrounding environment and, in general, the greater the amount of salts the greater the absorption of moisture especially under humid conditions. Thus, even though rising dampness may have been controlled by the insertion of a remedial damp-proof course these salts alone can cause the wall and any contaminated decorations to remain damp.

DAMP-PROOFING

Therefore, to provide a ‘dry’ wall and a suitable surface to take new decorations the Damp Proof Course Systems involve two fundamental processes:

1. The insertion of the damp proof course system.

2. Removal of old contaminated plasterwork/decorations and replacing with specialist replastering to prevent the passage of any residual moisture and contaminant salts from passing to the new surfaces from the underlying masonry.



THE SURVEY          OUR TREATMENT          OUR GUARANTEE

The Survey

It is essential when investigating the potential for rising dampness to eliminate other sources of water ingress. Care must be taken to eliminate other potential sources of moisture, especially condensation in the colder months, and it is therefore essential to ensure that a full investigation is always undertaken. If any other sources are identified then these must be first eliminated before a proper assessment of any rising dampness can be made as it can be very difficult to distinguish between two or more interfering sources of water ingress. Should it be noted that previous damp-proofing works have been undertaken then it is essential to take great care ensuring that the evidence of dampness is correctly evaluated.

Once any form of dampness has been identified then it is essential that the risk of decay to any timbers is assessed and appropriate remedial measures undertaken. Remember, a combination of dampness and wood leads to potential rot.

It is essential that the survey is carried out thoroughly and that all potential areas of dampness are noted. Special vigilance must be taken where dampness, and hence decay, may be unseen such as beneath timber suspended floors. Wherever timber and dampness coexist the risk of decay should always be reported and the client must be put on notice to that effect.

Where there is more than one source of water ingress then it may be difficult to distinguish between their origins. Generally, the presence of active rising dampness is indicated by excessive moisture at the base of the wall which slowly declines on going up the wall. This moisture gradient is usually observed up to heights of 1.5 metres but, depending on conditions and the structure of the masonry, it may rise to greater heights. Sometimes, a ‘tidemark’ can be observed running almost horizontally along the wall and the area below it being obviously damp.

The contamination of the masonry with a ‘band’ of hygroscopic salts will also confirm the presence of a rising damp but will not differentiate between an active or past complex. The proper use of a surface electrical moisture meter can give a useful indication as to the existence of a rising damp complex but cannot give absolute proof, especially where remedial works have been previously carried out. Generally, with an electrical moisture meter high surface readings are obtained followed by a sudden ‘cut-off’ at the top of the rise of moisture. This pattern of readings is typical of that resulting from active rising dampness.


Our Injection Cream Damp Proof Course System

Our Damp Proof Course System is based on a unique silicone emulsion cream for injection into mortar beds to control rising dampness. The injection cream can be used in all types of masonry without the use of high pressure pumps. The injection cream is delivered by hand pressure using a simple displacement pump with injector lance. Once in the substrate injection cream migrates into the masonry pores and rapidly reverts to a liquid phase. Polysiloxanes are formed in situ and the curing of the new Damp Proof Course starts immediately, with a final cure within 2-6 weeks depending on the wall thickness.

Our injection cream system will perform better than any conventional solvent based injection system against rising damp. The unique cream consistency allows horizontal application techniques without the injection agent running out. This, combined with superior stability in the borehole, ensures the optimal penetration of the active ingredient throughout the substrate. In all cases DPC installation is carried out in accordance with BS 6576 (1985).

Further advantages include.

  • Fast clean injection
  • Eliminates the use of electric pumps
  • No odour and low hazard
  • Environmentally friendly. Our injection cream system is ecologically safe and non hazardous.
  • Precise, measured injection
  • BBA Approved

PREPARATORY WORK

Carpets and furnishings are removed from the area to be treated. Remove timber skirting, saving for re-fixing where required. Remove plasterwork to an minimum height of 1 metre or 500mm above the highest evidence of damp/salt contamination.

DRILLING

12mm diameter holes will be drilled horizontally into the mortar joint at a maximum of 120mm centres and to a depth of 10-20mm from the opposite face and 150mm above ground level. Stone walls over 350mm thick may be drilled from both sides.

INJECTION

The drilled boreholes are filled with the Injection Cream using a low pressure sprayer. Any spillage’s onto patios, paths etc. are removed using water and detergent.

FINISHING

Holes to be capped accordingly using mortar or plastic plugs. Walls to be left unplastered for as long as possible to speed up the drying out process.

EARTH RETAINING WALLS

Earth retaining walls can only be treated above external ground level. That area below must be suitably ‘K11 System Tanked’ to prevent lateral moisture penetration.

REPLASTERINGPlastering a Wall

In order to complete an effective damp-proofing system it is extremely important that the new plasterwork which replaces the salt contaminated material resists the passage of residual moisture and contaminant salts from passing from the underlying substrate through to the new decorative surface. This function is extremely important because the underlying wall can take many months to dry down following damp-proofing.

Finally it is important to understand that damp proofing is a system – (1) the injection of the DPC and (2) the replastering: they are generally inseparable. Our Surveyor will advise on exactly what remedial work is necessary.

REDECORATION

No decoration should take place for at least 6 weeks after treatment (or until the wall has dried out).

After this time we recommend that only matte emulsion paints. We do not recommend the use of wall paper or high build paints such as enamels for a minimum period of up to 12 months to allow for any residual moisture in the wall to dry out.


Our Guarantee

We provide a free-of-charge 30 Year Guarantee which covers the services we provide. The Guarantee can be used as proof of works when selling the property also.

Additionally the Guarantee can benefit from Insurance Backing for a period between 20 & 30 years. We are an Approved Contractor for Sovereign Preservation UK. Please feel free to enquire for further information.

 

Please click to book a Rising Damp Survey

 

  
Sovereign Approved Contractor 

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