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stability
ThermoWood® has improved
stability when compared to normal kiln dried pine.
The internal stresses within the structure of timber are reduced when it
is treated to the high temperatures of the ThermoWood®
process. This reduces the potential for twist and warp. In
addition there is a decrease in the equilibrium moisture content and
water permeability. There exists a linear correlation between
water intake properties and dimensional stability of the material under
changing moisture conditions. Swelling and shrinkage of ThermoWood®
is only 50% of the corresponding values of untreated Nordic pine and is
in a similar range to teak.
Table1. Dimensional changes of
ThermoWood® compared to untreated pine.
e.g.
Dimensional change of 118mm wide ThermoWood® cladding when
50%RH 90%RH
ThermoWood® MC change 5% (5%-->10%)
Width change (%) 5% x0.17 = 0.85%
Width change in mm 0.0085 x 118mm = 1mm
durability
Finnforest ThermoWood®
has improved durability due to the degradation of hemicelluloses
(arabinose, galactose, xylose, mannose). These are the foodstuff
for rot-causing fungi and bacteria and in the abscence for nourishment
they are not able to occupy ThermoWood® .
ThermoWood® has high
resistance to most decay fungi.
ThermoWood® is resistant to Longhorn beetles, Anobium
punctatum and Lyctus Bruneus.
NB - ThermoWood® is not
resistant to the biological growth of algae on its surface. These
organisms get their nourishment from the surrounding air and do not
cause structural damage. However they are considered in many cases
to be an aesthetic problem. Their growth can be prevented by using
surface treatments.
service life
Scandinavian Pine treated with the
Thermo-D process can be considered suitable for usage in situations
where hazard classes 1-3 (EN-335-2) apply.
General service situations and hazard classes given in EN 335-1
)Appendix 1):
Hazard class 1 Above ground, covered (dry);
Hazard class 2 Above ground, covered (risk of wetting);
Hazard class 3 Above ground, not covered
In normal conditions external cladding is exposed to hazard class 2 or 3
BRE has reviewed data supplied by VTT
relating to thermally treated timber. On the basis of this
evidence, BRE was able to conclude that data for a test material
corresponding to ThermoWood®
D pine gave a durability performance equivalent to that acceptable in
the UK for cladding, providing a 30 year service life, when following
manufacturer's guidance.
density
ThermoWood® density is
350 - 480 kg/m³ when its moisture content is 6% (typical for RH + 65%,
t = 20ºC conditions). Natural variation will occur between
individual boards. Material density is approximately 10% lower
than the density of Nordic pine.
nail & screw holding
strength
Nail holding strength values for wire
and improved nails for ThermoWood® do not differ from the
values of European redwood. However, screw holding strength is
about 20% less due to the altered state of the cell wall during the
ThermoWood® process.
emissions
ThermoWood® has a
characteristic smell which is caused by the chemical changes that occur
during heat treatment. The smell might not be appreciated by all,
but several tests have shown that emissions are not harmful or
dangerous. TVOC (Total Volatile Organic Compounds) values are
significantly lower than those for untreated softwoods due to the
evaporation of most of the terpenes during heat treatment process.
fire performance
According to EN 13501 (SBI-test)
ThermoWood® is in reaction to fire class D. It is
possible to treat further with fire protective treatments in order to
achieve UK fire rating class 1 Spread of Flame.
thermal properties
Thermal conductivity of ThermoWood®
is reduced by 20-25% compared with normal softwoods. According to
VTT tests the thermal conductivity λ 10 of ThermoWood®
(D, pine) is 0.099 W/(m K). The corresponding value for untreated
sawn timber is 0.12 W/(m K). colour
The colour of ThermoWood®
is affected by the treatment temperature and time. The higher the
temperature the darker the appearance. As with all softwoods
variances occur and are due to varying densities. When ThermoWood®
is exposed to UV-light, it will lose its colour and turn silver grey
unless protected by a pigmented surface protection. moisture
content
ThermoWood® has moisture
content of 5.7% (50%RH) when packed at production site.
This level will change according to atmospheric conditions. The
Equilibrium moisture content is only half of the corresponding value for
untreated pine (Table 1). environment
Finnforest ThermoWood®
is PEFC -certified which ensures the raw material is sourced from
sustainable managed forests.
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