Browse > Article

Effect of Copper Retention on Copper Leaching in Wood Treated with Copper-based Preservatives  

Ra, Jong-Bum (Department of Interior Materials Engineering, Jinju National University)
Kang, Sung-Mo (Quality Control and Standardization Team, Department of Forest Products, Korea Forest Research Institute)
Kang, Shin-Kwon (Quality Control and Standardization Team, Department of Forest Products, Korea Forest Research Institute)
Publication Information
Journal of the Korean Wood Science and Technology / v.37, no.5, 2009 , pp. 421-425 More about this Journal
Abstract
This research investigates the effect of copper retention on copper leaching in wood treated with copper-based preservatives. Radiata pine (Pinus radiata D. Don) sapwood samples were ground in a Wiley mill equipped with a 20-mesh screen. The ground wood was vacuum-treated with various concentrations of alkaline copper quat (ACQ), bis-(N-cyclohexyl-diazeniumdioxy)-copper (CB-HDO), and copper azole (CUAZ). The treated samples were conditioned at $70^{\circ}C$ and 100% RH for 72 hours. The samples were leached by using the distilled water for four weeks, and the copper contents in each sample were measured by X-ray spectroscopy. As expected, the copper leaching was increased with increasing of copper retention. The copper leaching from the ACQ and CB-HDO treated samples were gradually decreased with increasing copper retention: however, the copper losses from the CUAZ treated samples appeared to be proportionally increased with the increase in copper retention in all retention levels tested. The results indicate that at the conditions of the same copper retention ACQ and CB-HDO treated wood have a better leaching resistance compared to CUAZ treated wood.
Keywords
ACQ; CB-HDO; CUAZ; copper retention; copper leaching;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Jin, L. and A. F. Preston. 1991. The interaction of wood preservatives with lignocellulosic substrates. 1. Quaternary ammonium compounds. Holzforschung 45: 455∼459   DOI
2 Zhang, J. and P. D. Kamdem. 1999. Interaction of copper-amine complexes with wood: Influence of copper source, amine ligands and amine to copper ratio on copper retention and leaching. Int. Res. Group. On Wood Pres. Document No. IRG/WP/99-30203
3 Kang, S.-M., I.-Y. Hwang, and S.-k. Kim. 2008. Effect of steam on fixation of Cu-amine preservative treated wood. Int. Res. Group on Wood Pres. Document No: IRG/WP 08-50251
4 Morris, P. I., S. M. McFarling, and A. Zahora. 2002. Treatability of refractory species with amine and amine/ammoniacal formulations of ACQ. Forest Prod. J. 52(10): 37∼42
5 Kamdem, P. D. and J. Zhang. 2000. Contribution of wood components on the absorption of copper amine. Int. Res. Group on Wood Pres. Document No: IRG/WP/00-30216
6 Lucas, N. and J. N. R. Ruddick. 2002. Determination of the amine to copper ratio remaining in wood after water leaching. Int. Res. Group on Wood Pres. Document No: IRG/WP/02-30285
7 Cooper, P. A. 1988. Diffusion and interaction of components of water-borne preservatives in the wood cell wall. Int. Res. Group on Wood Pres. Document No: IRG/WP/3474
8 Cooper, P. A. 1991. Cation exchange adsorption of copper on wood. Wood Protection 1(1): 9-14
9 Ruddick, J. N. R. 1996. The fixation chemistry of ammoniacal copper wood preservatives. Proc. Amer. Wood Pres. Assoc. 92: 32∼49
10 Tascioglu, C., P. Cooper, and T. Ung. 2005. Adsorption of ACQ and CuMEA wood preservatives in red pine. Int. Res. Group on Wood Pres. Document No: IRG/WP/05-30374
11 Manriquez, V., M. C. Vallette, N. Lara, N. G. Tejeda, O. Wittke, G. Diaz, S. Munoz, and L. Kriskovic. 1996. Crystal structure and vibrational spectra of polyamine-copper (II) complexes. J. Chem. Crystal. 26(1): 15∼22   DOI