The Effects of Adding Heartwood Extractives from Acacia confusa on the Lightfastness Improvement of Refined Oriental Lacquer

Abstract: In this study, a renewable polymeric material, refined oriental lacquer (ROL), used as a wood protective coating, and the Acacia confusa Merr. heartwood extractive, which was added as a natural photostabilizer for improving the lightfastness of ROL, were investigated. The best extract conditions for preparing heartwood extractives and the most suitable amount of addition (0, 1, 3, 5, and 10 phr) were investigated. The lightfastness index including brightness difference (ΔL *), yellowness difference (ΔYI), and … Show more

“…This also specifies that the coating forms a layer between the UV radiations and the wood and protects the wood from lignin deterioration. This result is in agreement with recent findings where they found that extractives form a protective barrier against UV irradiation. ,,, …”

“…The representative diagram is illustrated in Figure . The desirable anti-UV aging property can partly lessen the discoloration of dyed wood after UV irradiation. , The result indicated that the −C–H of the side chains degraded by photodegradation, and the peroxide, benzoquinone, and carbonyl groups formed. ,, …”

“…Most of the coatings, particularly epoxy and polyurethane coatings, degrade under the influence of UV radiation since they contain aromatic structures with considerable absorption in the UV region, which leads to free radical-mediated photochemical degradation. In order to prevent or limit photodegradation of the coating, UV-absorbing chemicals are added to the coating. ,,,,− Natural RS bark extract-coated rubberwood showed various degrees of color changes upon light irradiation (Figure ). The wide array of colors exhibited by the extracts showed the potential of the extracts as natural colorants.…”

“…89,90 The result indicated that the −C−H of the side chains degraded by photodegradation, and the peroxide, benzoquinone, and carbonyl groups formed. 82,83,91 The efficacy and the anti-UV property of the natural dye are determined by the degradation the lignin undergoes in the overall process. The ∼1503 cm −1 (guaiacyl lignin) and ∼1600 cm −1 (due to aromatic C�C stretching vibration in lignin) are characteristic peaks of the lignin, 83,87,92−95 which are almost obliterated after 250 h of UV exposure, referring to the rapid lignin degradation of uncoated wood after ultraviolet radiations (Figure 6F).…”

“…This result is in agreement with recent findings where they found that extractives form a protective barrier against UV irradiation. 82,83,96,97 Biocidal Activity of Bark Extracts. The antifungal activities of the extracts of RS bark were evaluated in Petri plates inoculated with a white-rot fungus T. hirsuta (TH) and a brown-rot fungus O. placentus (OP).…”

Potential Use ofPterocarpus santalinusBark Extracts as UV-Protective Coats onHevea brasiliensisWood

“…This also specifies that the coating forms a layer between the UV radiations and the wood and protects the wood from lignin deterioration. This result is in agreement with recent findings where they found that extractives form a protective barrier against UV irradiation. ,,, …”

“…The representative diagram is illustrated in Figure . The desirable anti-UV aging property can partly lessen the discoloration of dyed wood after UV irradiation. , The result indicated that the −C–H of the side chains degraded by photodegradation, and the peroxide, benzoquinone, and carbonyl groups formed. ,, …”

“…Most of the coatings, particularly epoxy and polyurethane coatings, degrade under the influence of UV radiation since they contain aromatic structures with considerable absorption in the UV region, which leads to free radical-mediated photochemical degradation. In order to prevent or limit photodegradation of the coating, UV-absorbing chemicals are added to the coating. ,,,,− Natural RS bark extract-coated rubberwood showed various degrees of color changes upon light irradiation (Figure ). The wide array of colors exhibited by the extracts showed the potential of the extracts as natural colorants.…”

“…89,90 The result indicated that the −C−H of the side chains degraded by photodegradation, and the peroxide, benzoquinone, and carbonyl groups formed. 82,83,91 The efficacy and the anti-UV property of the natural dye are determined by the degradation the lignin undergoes in the overall process. The ∼1503 cm −1 (guaiacyl lignin) and ∼1600 cm −1 (due to aromatic C�C stretching vibration in lignin) are characteristic peaks of the lignin, 83,87,92−95 which are almost obliterated after 250 h of UV exposure, referring to the rapid lignin degradation of uncoated wood after ultraviolet radiations (Figure 6F).…”

“…This result is in agreement with recent findings where they found that extractives form a protective barrier against UV irradiation. 82,83,96,97 Biocidal Activity of Bark Extracts. The antifungal activities of the extracts of RS bark were evaluated in Petri plates inoculated with a white-rot fungus T. hirsuta (TH) and a brown-rot fungus O. placentus (OP).…”

Potential Use ofPterocarpus santalinusBark Extracts as UV-Protective Coats onHevea brasiliensisWood

Wood—From Natural Color Patterns Toward Naturally Altered Color Impressions

Natural compounds for oxidative stress and neuroprotection in schizophrenia: composition, mechanisms, and therapeutic potential