SiOO:X is specified extensively for the protection of external timber facades. The SiOO:X system is used as a surface protection system which is suitable for Use Classes 1, 2, 3.1 and 3.2 according to EN 335 Part 2. If additional protection is thought necessary for Use Class 3.2 applications, then the SiOO:X Wood Protection System can be applied to preservative treated wood or to thermally treated wood.
The SiOO:X system brings many benefits through the innovative use of proven, patented silicate technology. Properly applied to well designed timber structures using well chosen naturally durable timber, SiOO:X enhances the protection of the timber against degradation through fungal and insect attack and UV damage. It does this in an eco-friendly manner, giving long life and an aesthetically pleasing appearance with even weathering.
SiOO:X gives excellent performance if used correctly on cladding structures that have been designed and installed using sound rain screen design principles and practice.
Most failures in timber buildings are caused by water; either the timber was installed at the wrong moisture content for its intended use or it became wetter in service than was allowed for in the design. Timber-framed and -clad walls are exposed to external wetting by rain or other precipitation, from water vapour carried in humid external air and from water vapour diffusing into the wall from within the building. Rainwater is usually the dominant wetting mechanism in the UK and Ireland.
Design considerations relating to water penetration
Any wood protection treatment system cannot fully mitigate the impact of poor design and flaws in detailing which allows moisture and rain penetration into the timber so that it becomes wetter in service than was allowed for in the design. There are important design choices1to be made in designing for durability of timber facades. Some of the key choices are:
Deflection: Rainwater is deflected away from the facade using eaves and flashings; from an even weathering consideration larger eaves can be used in the design as SiOO:X prevents differential weathering; at the minimum it is important to protect the wall head using a projecting flashing; flashings lower down the wall should have similar projections;
Drainage: Rainwater that enters the facade assembly should be able to drain out at the base of every cavity; horizontal surfaces should be sloped wherever possible;
Drying: Include a well-ventilated and drained cavity behind the cladding. Cavities should have openings at the top to promote moisture evaporation; on wet sites cavities always need to be ventilated (open at the top and bottom) to allow through flow of air; on dry sites there is less need although it is still a useful precaution against storm events;
Durability: The selected timber species should be resistant to all the degradation effects that may occur due to moisture. If timber is being used for its biodegradation resistance (natural durability), heartwood timber from low durability species should be avoided and sapwood needs to be removed. Sapwood should not be present on external faces as shown here in Siberian larch:
Splash lines: A common problem occurs where timber cladding is brought too close to the ground or another horizontal surface. The resultant splashing causes rapid localised weathering and can lead to fungal decay. In the UK a minimum 200-250 mm should be considered;
Window installations tend to be a weak link in the facade in terms of weather tightness and poor design can lead to water ingress. Most weather tightness problems occur at the junction between the base of the window and the wall and a properly designed and installed flashing is essential at this point.
An example of good design with eave overhangs, clearance at ground level and effective window detail
Cladding board configuration: This needs to be given careful consideration and board profiles and board orientation determined. The movement involved in a specific timber and board width combination should be calculated and the board installation detailed to accommodate movement. A key issue is the detailing of the junctions between boards to allow movement. If the facade has staggered joints there should be a gap between the board ends to avoid water entrapment. If vertical boards are joined in this way, their ends should be sloped outwards - all end grain should be sealed.
Preparation and Application
SiOO:X is a penetrant.To achieve the best performance it needs to be able to penetrate the timber substrate to a sufficient depth. There are good practices that need to be adhered to including:
- A sawn surface finish should be chosen wherever possible as this opens the surface so that the maximum penetration of the SiOO:X products into the timber occurs by surface coating.
- Planed dressed surfaces should not be used as the smooth glazed surface resists penetration. If the timber is supplied in a dressed form it must be sanded with no finer a sanding paper than a 60 grit grade.
- All sharp board edges and sill edges should be removed.
- The timber should be kiln dried to a preferable 16% moisture content.
- The SiOO:X treatment should be factory applied by a Sioo approved distributor/coater in factory controlled conditions.
- The treatment should be applied to all timber surfaces, the back and front, and all timber edges.
Construction and Assembly
When delivery is made to site the treated timber should be stored ready for use in a dry storage area with all packing material removed.
All cut and exposed board edges must be treated with an end-grain sealer, either the SiOO:X End Grain Sealer or a quality proprietary product. Exposed end grains are a common source of moisture ingress.
Use stainless steel fixings.
Our main distributor Russwood have extensive experience in advising clients on material selection and careful detailing, which are key to ensuring that every project looks fantastic, and meets its performance objectives.
Timber is a biogenic material - it is produced by living organisms and it has an intimate relationship with moisture. The engineering of timber cladding facades needs to encompass a number of performance issues and if in doubt professional advice should be sought.
1. External Timber Cladding: Design, Installation and Performance
Ivor Davies and John Wood