The properties of wood acetylated by Titan Wood’s process have been investigated using both standard and non-standard test methods conducted by many independent test laboratories.

Extensive long-term field testing allows performance of Accoya® wood in service to be predicted with confidence. In many cases reference timbers, whose properties are well understood, were included in tests for comparison. In addition, there is a body of information available regarding performance of acetylated wood exposed in exterior trials for up to 18 years. The following sections consider specific properties of Accoya® wood and their significance.


Durability is the inherent resistance of wood to attack by wood destroying organisms. Use classes provide levels of risk for wood products used for different applications in the UK. These use classes and types of wood commodity included within each class are given in BS EN 335-2.

Fungi are the most important pests in the UK and, since they require a wood moisture content in excess of 20% to decay wood, wood that is exposed to wetting is at risk.

Insect pests are less important in the UK, the most common being death-watch beetle, house longhorn, powder post beetle and common furniture beetle. Further information on common types of insects and fungi which can affect timber is covered in TRADA WIS 2/3-32.

Durability of the heartwood of a species is assessed using BS EN 350-1. This involves laboratory standard testing to BS EN 113 and field testing to DS DS/EN 252. Table 1 shows the five durability classes from BS EN 350-1 with examples of species in each class from BS EN 350-2.

Tests to BS EN 350-1 with radiata pine have shown that acetylation increases its durability against fungi from the least durable (Class 5) to the most durable (Class 1). Class 1 species can be used in ground contact conditions such as fence posts, railway sleepers, structural timber in fresh water (e.g. bridge foundations) and sole plates below damp-proof courses. They achieve a 60 year service life in above ground applications such as windows, doors, cladding and decking.

Independently conducted tests to BS EN 330 compared the durability of window joinery manufactured from radiata pine that was untreated, treated with alkenyl succinic anhydride (ASA) and acetylated radiata pine, and showed the acetylated L-joints (see Figure 5) performed significantly better than the others. After nine years of exposure, the acetylated timber showed slight discolouration but no significant softening or decay, while untreated and ASA-treated timber were both severely decayed. This trial indicates that Accoya® wood meets requirements for long-life exterior joinery applications in the UK. It also demonstrates that the product continues to perform following coatings failure (which is induced at the start of this test).

Dimensional stability

Timber is a hygroscopic material. This means that its moisture content changes in response to the temperature and humidity of its surroundings and causes dimensional changes (shrinkage or swelling), known as ‘movement’. The degree of movement exhibited by timbers varies with species.

Accoya® offers much better dimensional stability (resistance to movement) in both radial and tangential directions than unmodified radiata pine. Tests have shown that dimensional changes can be reduced by up to 80% (see Figure 6).

Since the movement of Accoya® is low, it is ideal for exterior applications where dimensional stability is important, such as doors, window frames, garden decking, cladding, boat decks and garden furniture that are exposed to wetting and drying. Other specialist applications such as guitars, bridges and large dimension mouldings also benefit from its improved dimensional stability.

The benefits of using the more dimensionally stable Accoya® wood can be seen in decking and cladding applications. The maximum nominal widths of decking or cladding boards should not exceed 150mm to reduce effects of moisture movement and risk of ‘cupping’. Cupping occurs in flat sawn boards because of the differences in the amount of tangential and radial shrinkage across upper and lower faces. Since Accoya® is more dimensionally stable, flat sawn boards up to 325mm wide may be used without risk of cupping. This simplifies fixing and improves performance in service.


For many applications the frequency and cost of maintenance is a critical factor in determining the choice of material that is used.

Accoya® wood can be coated in the same way as other wood. Its better dimensional and UV stability means coatings last longer and require less frequent maintenance.

For designers, architects, builders and property owners, the extended coating performance and guarantees reinforce the excellent natural performance attributes of Accoya®.

Independent tests (conducted as shown in Figure 7) have shown that coatings perform significantly better on acetylated wood than on untreated wood. After 91⁄2 years’ outdoor exposure, coatings on untreated samples were failing with cracking, flaking and complete erosion in some cases. In contrast, the same coating on Accoya® remained serviceable.

Based on these results, it is predicted that the maintenance frequency would be as low as once every ten years. Independent modelling studies into whole-life costing of window joinery manufactured from Accoya®, sapele, laminated European oak and European redwood showed that the Accoya® performed best over a simulated sixty-year period. Better performance was a direct result of the increased time intervals between coating maintenance cycles for Accoya® joinery.

Close collaboration with Teknos, Sikkens and GORI (three of Europe’s leading wood coatings companies) has resulted in a package of coatings guarantees for windows and doors:

  • A 10-year guarantee for a translucent (wood stain), fully factory-applied maintenance coating system, to first brush applied maintenance.
  • A 12-year guarantee for opaque fully factory applied maintenance coating system, to first brush applied maintenance.

It is important to highlight that guarantees for these coatings on Accoya® are affected by the level of exposure of the site. Site exposure will also influence performance of coatings on unmodified wood.

Weathering performance

In outdoor weathering tests, Accoya® exposed to the sun changes colour in the same way as unmodified softwood, although rate of colour change is slower. The improved photostability of Accoya® allows for a broader range of translucent and lighter coloured coatings to be used, without the risk of the underlying wood darkening in service on exposure to sunlight.

Density and machining properties

Density has an important influence on the ease of wood machining. The rate at which a higher density timber can be cut or planed is reduced as density increases and the blunting effect is more severe.

The slight increase in the density of radiata pine as a result of modification using the Accoya® process has been shown to have little influence on ease of machining. Accoya® can be machined in the same way as unmodified wood. Cross cutting, ripping, planing and profiling result in a smooth surface comparable to other commonly used species in the joinery industry. In addition, the timber is relatively light and therefore easy to handle. These properties make Accoya® very suitable for joinery.


The strength of timber refers to its ability to resist applied forces that could lead to its failure. While some modification processes (eg thermal modification) weaken wood, acetylation does not reduce its strength.

The bending strength of both unmodified, non stress-graded radiata pine and Accoya® is 80N/mm2. This is towards the middle of the range for cladding and joinery timbers, with Western red cedar being 55N/mm2 and meranti 90N/mm2.

These values are obtained from standard tests on straightgrained timbers free from defects.


Hardness is the resistance of timber to abrasion or indentation. Hardness provides useful information on how timber is likely to wear. Timber hardness is normally measured using the Janka test.

The higher density and lower moisture content of radiata pine modified according to the Accoya® process results in higher hardness values when tested to ASTM D143. Results show that acetylation increases hardness of radiata pine by 47% in the radial and 52% in tangential orientation.

Hardness values for Accoya® are similar to those of mahogany, black cherry or African walnut, wood species often used for flooring.

Thermal properties

Thermal conductivity of construction materials is increasingly important when considering performance of the building envelope, in particular windows and doors. Where wood is used for joinery (doors and windows) reduced thermal conductivity is beneficial.

Tests with Accoya® show this material has a lower thermal conductivity (0.108W/m2/K) than that normally presented for softwoods and hardwoods (0.150 and 0.160) respectively.

For this reason Accoya® joinery will give improved thermal performance.

Interaction with metal fixings

Since low concentrations of acetic acid may remain in the wood after acetylation, risk of corrosion of metal components is increased to a level comparable with many durable hardwoods.

For this reason, and the fact that Accoya® wood may be exposed in applications that promote corrosion, only A2/A4 grade stainless steel and specifically tested alternatives should be used when wood contact or its interaction with the component is likely.


Accoya® wood can be glued using many commonly used wood adhesive systems. However, it is imperative that the product’s modified properties are taken into account. TRADA recommends that Titan Wood be contacted in order to confirm compatibility of specific adhesives with this modified wood.


At the end of its serviceable life, Accoya® may be recycled, disposed of responsibly and with ease (unlike many building products) because it contains only naturally occurring wood components. It can be composted or incinerated without release of toxic materials into the environment. It could also be used as a raw material for particleboard, MDF or other reconstituted wood.