Page 15 - Brochure inglese_2022
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AFTER
AFTER
The oxidation process of pa rquet Afrormosia BEFORE Olive BEFORE
The oxidation process of parquet
All wood species, over time, are destined to change their color tone, considering that are living organic matter, AFTER BEFORE AFTER BEFORE
which react with air and light.
Since wood is a photosensitive and photochromatic material, oxidation is a natural phenomenon,
which occurs to direct or indirect exposure of wood to sunlight or air.
Afzelia Sapele
The oxidation process is a chemical reaction, that is a chromatic alteration, whose intensity d
epends on the substances that make up the wood. AFTER BEFORE AFTER BEFORE
The wood oxidizes according to the amount of light it receives, reaching stability after a couple
of years at most.
Photochronic changes occur with greater intensity in the first periods of exposure to light, and then
stabilize over time. The oxidation process changes from one specie to another. In fact some woods, Iroko Teak
in contact with the sunlight, change their color more clearly then others, lightening or darkening
their tones. AFTER BEFORE AFTER BEFORE
Those of European origin such as Oak and Larch have a low oxidation, which over time will tend
to become warmer. There will not be a strong oxidizing action, but a tendency to warm up
one’s own shade.
Those of African or South American origin such as Afrormosia, Doussie’, Iroko, have a Larch Walnut
much faster and more decisive oxidation, which tends to darken the original color.
Not all wood species with oxidation tend to darken, such as Teak, which over time tends
to lighten is darker parts, conforming with the lighten ones. AFTER BEFORE AFTER BEFORE
Oak Wengé
