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Professional wood protection begins with understanding the physical, chemical and biological processes that degrade wood. UV radiation, water, oxygen and microorganisms interact in complex ways, accelerating deterioration. This article dives into the science behind wood weathering and explains how modern protection systems counter these mechanisms.
UV light — especially UV‑B (280–315 nm) — causes photochemical degradation of lignin, the polymer responsible for wood’s colour and rigidity.
UV photons break lignin’s aromatic structures
lignin oxidises → yellowing, browning, then greying
cell‑wall cohesion decreases
surface micro‑erosion occurs
loose fibres wash away with rain
rough, fibrous surfaces
reduced coating adhesion
increased moisture uptake
pigments reflect UV
UV absorbers (benzotriazoles, HALS) neutralise free radicals
film‑forming coatings block light penetration
Wood is hygroscopic: it absorbs and releases moisture continuously. Water transport occurs through three main pathways.
water moves through pores, cracks and end‑grain
extremely fast
primary cause of moisture‑related failures
water vapour migrates through cell walls
slow but constant
driven by relative humidity differences
water binds to hydroxyl groups in cellulose
causes swelling and shrinkage
moisture cycling creates internal stresses → cracking
wet wood is vulnerable to fungal attack
coatings fail faster under high moisture load
oils fill pores → reduced capillary uptake
silane‑modified systems make cell walls hydrophobic
coatings act as barriers but must remain elastic
Wood oils are typically drying oils such as linseed, tung or modified alkyd oils.
Oxidation
unsaturated fatty acids react with oxygen
hydroperoxides form
Radical formation
hydroperoxides decompose into free radicals
Cross‑linking
radicals link fatty‑acid chains
a polymer network develops
oil cures into a solid matrix
forms a stable but non‑film‑forming structure
penetrates deeply → excellent adhesion
temperature
oxygen availability
metal driers (cobalt, zirconium, manganese)
layer thickness
Stains contain binders such as alkyd resins, acrylics or polyurethanes.
solvent evaporates
resin molecules move closer
polymers entangle into a continuous film
water evaporates
latex particles pack together
coalescence → particles fuse into a film
UV and moisture barrier
semi‑film‑forming → some vapour permeability
can crack if stresses exceed elasticity
poor adhesion on weathered wood
layers applied too thick → internal stress
moisture trapped under the film → blistering
Fungi are the primary biological degraders of wood. They require moisture, oxygen and nutrients.
degrades cellulose
wood becomes brown, brittle and cubically cracked
degrades lignin
wood becomes pale and fibrous
active under high moisture
attacks cell walls in soft earlywood
fungi secrete enzymes
enzymes break down cellulose, hemicellulose and lignin
cell‑wall strength decreases
structural failure follows
preservative impregnations inhibit enzymatic activity
hydrophobic systems limit moisture availability
coatings block spores when intact
| Process | Cause | Effect on wood | Best protection |
|---|---|---|---|
| UV degradation | Photochemical lignin breakdown | Discolouration, fibre loss | Pigments, UV absorbers, films |
| Water transport | Capillary flow, diffusion, adsorption | Swelling, cracking, rot | Oils, silanes, elastic coatings |
| Oil polymerisation | Oxidative cross‑linking | Hard, stable surface | Thin layers, oxygen exposure |
| Stain film formation | Evaporation & coalescence | UV & moisture barrier | Correct thickness, sound substrate |
| Fungal attack | Enzymatic degradation | Strength loss, decay | Preservatives, hydrophobicity |
Professional wood protection requires understanding:
photochemistry (UV degradation)
moisture physics (water transport)
polymer chemistry (oil curing, film formation)
microbiology (fungal enzymes and decay)
By selecting products that target these mechanisms — pigments, hydrophobic systems, elastic films, biocidal impregnations and deeply penetrating oils — wood can be preserved for many years longer.
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