Birch Wood Surface Characterization after Treatment with Modified Phenol-Formaldehyde Oligomers

Abstract: Phenol-formaldehyde (PF) resins with well-established molecular sizes are promising treatment agents for wood bulk protection. However, due to the presence of hydroxyl groups on the periphery, the PF oligomers tend to absorb the water, which can lead to water penetration into the wood. To overcome this drawback different PF pre-polymers have been chemically modified with different long-chain fatty acid chlorides (FAC) via esterification. To obtain the modified PF (M-PF) resins, the PF pre-polymers with average… Show more

“…Resoles can easily be modified to form resins with improved properties for a vast range of applications [1,3,4,[37][38][39][40]. As the free formaldehyde content increases with increasing F/P ratio for a given PF resin, it can become essential to modify the resin to limit possible formaldehyde emissions whilst simultaneously enhancing resin properties.…”

Surface Characteristics of Phenolic Resin Coatings

“…Resoles can easily be modified to form resins with improved properties for a vast range of applications [1,3,4,[37][38][39][40]. As the free formaldehyde content increases with increasing F/P ratio for a given PF resin, it can become essential to modify the resin to limit possible formaldehyde emissions whilst simultaneously enhancing resin properties.…”

Surface Characteristics of Phenolic Resin Coatings

Optimization, characterization and evaluation of sodium alginate nanoparticles for Ganoderic acid DM encapsulation: Inhibitory activity on tyrosinase activity and melanin formation

Study of the surface and interfacial properties of the surface of hot-waxed wood with modified Fischer-Tropsch wax