Abstract
In this study, we investigated the color, gloss and surface roughness of bamboo (Phyllostachys bambusoides) and Scots pine (Pinus sylvestris) samples impregnated with boron and copper based preservatives during accelerated weathering from 168 h to 672 h. Tanalith-E, ACQ, wolmanit-CB were used as copper-based chemicals, while a mixture of boric acid and borax (7:3; w/w) was used as the boron compound. Results showed that retention values of bamboo samples were lower than the retention values of Scots pine samples probably due to the bamboo’s anatomical structure and penetration characteristic. Bamboo surfaces became rougher and darker after impregnation and accelerated weathering compared to initial surfaces. Longer accelerated weathering periods seemed to have not a considerable effect on surface roughness of bamboo samples impregnated with copper based preservatives. Gloss of impregnated Scots pine samples increased with longer accelerated weathering period while gloss of bamboo samples decreased slightly with longer accelerated weathering period. Wolmanit-CB seemed to be most effective wood preservative for hindering color change and ensuring smooth surfaces after accelerated weathering. Color changes caused by accelerated weathering tended to be greater for impregnated bamboo samples than impregnated Scots pine samples.
Highlights
Bamboo is used in many applications such as furniture, crafts, decoration and construction
There was no evidence for a difference between the retention values of bamboo samples impregnated with the various preservatives (P > 0,05; One-Way Anova)
Lee et al (2001) found copper chromium arsenate (CCA) retention of bamboo culms reached only 22% of the target retention, and they reported penetration of bamboo was difficult than penetration of pine under same treatment conditions
Summary
Bamboo is used in many applications such as furniture, crafts, decoration and construction. Untreated bamboo for structural purposes has service life of 2-3 years (Lifang et al 2010) because it is degraded by decay fungi, mould fungi and insects (Salim et al 2008, Sun et al 2012, de Melo et al 2015). Treatment with copper chromium arsenate (CCA) and amine copper quat (ACQ) against decay fungi attack (Wahab et al 2010), treatment with copper based preservative treatment against decay and termite attack in the field test (Jiang 2008), treatment with chitosan-copper complex (CCC), propiconazole (PPA) and tebuconazole (TBA) against mould fungi attack (Sun et al 2012), and oil heat treatment against termite attack (Manalo and Garcia 2012) and fungal attack (Leithoff and Peek 2001) were investigated to enhance durability of bamboo.
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