Abstract
Wood properties of young teak (Tectona grandis L.f.) is inferior, and then preservative treatment is one possible solution to enhance its service life. The uptake and movement of preservatives through wood cell structure is directly connected to the wood permeability. There are two simple methods to identify wood permeability: water soaking and bubble test methods. This paper assesses the young teak permeability by water soaking and bubble test methods. The assessment was conducted into five cm thick young-teak discs by soaking in the red-dye water and blowing air into the discs which had been coated with soap. Results show that the heartwood is less permeable than sapwood. Red-dye penetrates almost 100% of the sapwood area, and the red-dye did not penetrate in the heartwood. Red-dye only penetrates in the cracked heartwood through the void volume in the cracking heartwood. There is a transition zone between sapwood and heartwood, and it is refractory. Bubble test with air pressure from compressor could open the air-pathway in the heartwood and sapwood of young-teak discs taken from Bogor. The bubble test result of young-teak discs from Madiun showed air-pathway only in the sapwood, but heartwood. The air pressure is not capable of moving the vapour through the wood cell. It indicates that the heartwood of young-teak from Madiun is less permeable and less possibility for pressure treatment.
Highlights
Teak wood (Tectona grandis Linn. f) is one of the most valuable woods for the construction of boats, furniture, flooring, decorative objects, and decorative veneer
This paper studies the permeability of young teak wood transversely by observing young-teak disc by a simple method of water soaking and bubble soap
Red-dye water absorption and soap bubble methods are visible for wood permeability indicators
Summary
Teak wood (Tectona grandis Linn. f) is one of the most valuable woods for the construction of boats, furniture, flooring, decorative objects, and decorative veneer. Mature teak heartwood has excellent dimensional stability and a very high degree of natural durability. Mature teak is mostly harvested from the plantation at the age of 50-80 years old in India and Indonesia (Soerianegara and Lemmens 1994). This long rotation has caused the price of teak wood to increase significantly due to a limited supply. Iskak (2005) stated that the shortage of teak as a raw material had been estimated at approximately 2 million m3 per year. Timber industries that rely on teak as raw material face difficulties in its continuity of supply (Krisdianto and Sumarni 2006)
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