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European Journal of Wood and Wood Products
Erschienen in: European Journal of Wood and Wood Products 2/2023

13.10.2022 | Original Article

Effect of micronized copper treatments on retention, strength properties, copper leaching and decay resistance of plantation grown Melia dubia Cav. wood

verfasst von: S. R. Shukla, D. P. Kamdem

Erschienen in: European Journal of Wood and Wood Products | Ausgabe 2/2023

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Abstract

Due to the health and environmental concerns, residential usage of copper chrome arsenate (CCA) and similar other heavy metal-based wood preservatives has been restricted in many countries. Waterborne micronized copper formulations of micron-sized particles containing copper- and some biocides are being used on commercial scale to improve the biological durability of various nondurable timber species. In the present work, different concentrations of micronized copper azole (MCA) were used to vacuum-pressure treat the plantation grown non-durable Melia dubia Cav. sapwood. The same species was also treated with CCA and water to be able to compare the efficacy of the treatments. Effect of impregnation of different MCA concentrations (0.5–2.0%) on the retention, density, water uptake, mechanical properties and decay resistance of M. dubia wood against brown and white rot fungi was evaluated. Copper leaching tests were carried out following American Wood Protection Association (AWPA) standards (E11) and the amount of copper leached from treated wood was analyzed using atomic absorption spectroscopy. The amount of copper retention in treated wood increased with increasing MCA concentration. The density of treated wood was slightly increased with MCA concentration due to the increased amount of preservative absorbed, while most of the strength properties of wood treated with MCA were found either comparable to control or slightly reduced. Micron- to nano-sized copper-containing particles were observed on cross-section and in the cell lumens. The numbers of particles observed on wood surfaces increased with the MCA concentrations. The improved performance of micronized copper treated M. dubia suggested that MCA can be used as an alternative to CCA and similar precarious preservatives for extending the service life of non-durable timbers.
Vorheriger Artikel Improving the properties of phenol-lignin-glyoxal as a wood adhesive by lignin nanoparticles
Nächster Artikel Optimal design and application of a MTMD system for a glulam footbridge under human-induced excitation

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Literatur
Anon (1972) DIN 52176:1972–09. Testing of wood preservatives; determination of the preventive effects of wood preservatives, test with wood destroying basidiomycetes according to the wood block method in Kolle flasks. pp 4
Anon (1986) Indian standard specification for “Methods of testing small clear specimens”, IS:1708. Bureau of Indian Standards, New Delhi, pp 64
Anon (2008) Indian standard specification for "Methods of laboratory testing of wood preservatives against fungi and borers (powder post beetles): Part 1 Determination of threshold values of wood preservatives against fungi", IS: 4873. Bureau of Indian Standards, New Delhi, pp 9
Anon (2017) ICC Evaluation service, ESR-1721, ICC-ES evaluation report, “wolmanized outdoor preservative-treated wood”, Arch Treatment Technologies Inc., Atlanta, Georgia (USA), pp 7
Arantes V, Jellison J, Goodell B (2012) Peculiarities of brown-rot fungi and biochemical Fenton reaction with regard to their potential as a model for bioprocessing biomass. Appl Microbiol Biotechnol 94:323–338CrossRefPubMed
Archer KJ (2007) Cell wall penetration of particulate copper wood preservative systems in southern pine. IRG38 Annual Meeting, May 20–24, Wyoming (USA), The International Research Group on Wood Protection. IRG Secretariat, Stockholm
Arsenault RD (1973) Factors influencing the effectiveness of preservative systems. In: Wood Deterioration and Its Prevention by Preservative Treatments. D.D. Nicholas (ed.). Vol. 2, Syracuse University Press, New York: 121–278
AWPA (2017) Standard method for accelerated evaluation of preservative leaching. E11. Book of Standards, American Wood Protection Association. Birmingham, AL, pp 624
Bak M, Nemeth R, Molnar F (2017) Effect of nanoparticles on the wood-water relations. ProLigno 13(4):308–315
Barnes HM, Lindsey GB, Hill JM, Pompeo M, Hodge R (2008) Bending properties of southern pine treated with micronized preservative systems. IRG39 Annual Meeting, Istanbul (Turkey), The International Research Group on Wood Protection. IRG Secretariat, Stockholm
Bowyer JL, Shmulsky R, Haygreen JG (2007) Forest products and wood science: an introduction, 5th edn. Blackwell Publishing, Ames, Iowa, p 576
Chudnoff M (1984) Tropical Timbers of the World. Agricultural Handbook 607.USDA Forest Service, Washington DC, pp 466
Civardi C, Schwarze FWMR, Wick P (2015b) Micronized copper wood preservatives: an efficiency and potential health risk assessment for copper-based nanoparticles. Environ Pollution 200:126–132CrossRef
Civardi C, Van den Bulcke J, Schubert M, Michel E, Butron MI, Boone MN, Dierick M, Acker JV, Wick P, Schwarze FWMR (2016) Penetration and effectiveness of micronized copper in refractory wood species. PLoS ONE 11 (9): e0163124 (pp 1-14)
Clausen CA, Green F (2003) Oxalic acid overproduction by copper-tolerant brown-rot basidiomycetes on southern yellow pine treated with copper-based preservatives. Int Biodeterior Biodegradation 51(2):139-144
Cooper PA (1991) Cation exchange adsorption of copper on wood. Wood Protection 1(1):9–14
FPL (2000) Environmental impact of preservative treated wood in a wetland boardwalk: Res Pap FPL-RP-582, Forest Products Laboratory, Madison, WI: US Department of Agriculture, Forest Service, Forest Products Laboratory, pp 126
Freeman MH, McIntyre CR (2008) A comprehensive review of copper based wood preservatives with a focus on new micronized or dispersed copper systems. Forest Prod J 58(11):6–27
Green III F, Schultz TP (2003) New environmentally‐benign concepts in wood protection: the combination of organic biocides and non-biocidal additives. In: Wood deterioration and preservation advances in our changing world. Goodell B, Nicholas DD, Schultz TP. ACS symposium series 845, pp 482
Hale MD, Eaton RA (1986) Soft-rot cavity formation in live preservative-treated hardwood species. Trans Br Mycol Soc 86:585–590CrossRef
Hastrup ACS, Green F, Clausen C, Jensen B (2005) Tolerance of Serpula lacrymans to copper-based wood preservatives. Int Biodeterior Biodegradation 56:173–177CrossRef
Hastrup ACS, Green F, Lebow PK, Jensen B (2012) Enzymatic oxalic acid regulation correlated with wood degradation in four brown-rot fungi. Int Biodeterior Biodegradation 75:109–114CrossRef
Kumar S, Kelkar BU, Mishra AK (2018) Variability in physical properties of plantation-grown progenies of Melia composita and determination of a kiln-drying schedule. J Forestry Res 29:1435–1442CrossRef
Lebow ST, Winandy J, Bender D (2004) Treated wood in transition: a look at CCA and the candidates to replace it. Wood Design Focus, Summer Issue: 4–8
Lebow ST, Tang JD, Kirker GT, Mankowski ME (2019) Guidelines for selection and use of pressure-treated wood. General Technical Report FPL-GTR-275, US Department of Agriculture, Forest Service, Forest Products Laboratory, Madison, WI (USA) pp 39
Lebow ST (2010) Wood preservation. Wood handbook: wood as an engineering material: chapter 15. Centennial Ed. General technical report FPL; GTR-190. Madison, WI: U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory: 15.1–15.28
Matsunaga H, Kiguchi M, Roth B, Evans PD (2008) Visualisation of metals in pine treated with preservative containing copper and iron nanoparticles. IAWA J 29:387–396CrossRef
Matsunaga H, Kiguchi M, Evans PD (2007) Micro-distribution of metals in wood treated with a ‘nano-copper’ wood preservative. IRG38 Annual Meeting, Wyoming (USA), The International Research Group on Wood Protection, Stockholm
Morrell JJ (2019) Protection of wood: a global perspective on the future. Sigma J Eng & Nat Sci 10(1):81–94
Parthiban KT, Bharathi AKR, Seenivasan K, Rao MGK (2009) Integrating Melia dubia in agroforestry farms as an alternate pulpwood species. APA News 34:3–4
Platten WE III, Luxton TP, Gerke T, Harmon S, Sylvest N, Bradham K, Rogers K (2014) Release of micronized copper particles from pressure-treated wood products. EPA Report No. 600/R-14/365, United States Environmental Protection Agency (USA), pp 56
Preston A, Jin L, Nicholas D, Zahora A, Walcheski P, Archer K, Schultz T (2008) Field stake tests with copper-based preservatives. IRG39 Annual Meeting, Istanbul (Turkey), The International Research Group on Wood Protection. Stockholm
Ryan KG, Drysdale JA (1988) X-ray analysis of copper, chromium and arsenic within the cell walls of treated hardwoods - new evidence against the microdistribution theory. J Inst Wood Sci 11:108–113
Saravanan V, Parthiban KT, Kumar P, Marimuthu P (2013) Wood characterization studies on Melia dubia Cav. for pulp and paper industry at different age gradation. Res J Recent Sci 2:183–188
Sharma SK, Shukla SR, Sethy AK (2019) Comparative studies of important wood quality parameters of Melia dubia Cav. of different age groups for finding their suitability in various applications. J Ind Acad Wood Sci 16(1):44–50
Shukla SR, Kamdem DP (2012) Effect of copper based preservatives treatment of the properties of southern pine LVL. Cons Build Mat 34:593–601CrossRef
Shukla SR, Kamdem DP (2020) Properties of red maple laminated veneer lumber impregnated with waterborne micronized and two soluble copper formulations. Wood Mater Sci Eng 15(2):64–75CrossRef
Shukla SR, Zhang J, Kamdem DP (2019) Pressure treatment of Heavea brasiliensis (rubberwood) with waterborne micronized copper azole: effects on retention, copper leaching, decay resistance and mechanical properties. Cons Build Mat 2016:576–587CrossRef
Stirling R, Boivin G, Uzunovic A, Kus S, Ruddick JNR (2020) Peroxide post-treatment of wood impregnated with micronized basic copper carbonate. Coatings 10:1213–1227CrossRef
Stirling R, Drummond J, Zhang J, Ziobro RJ (2008) Micro-distribution of micronized copper in southern pine. IRG39 Annual Meeting, Istanbul (Turkey), The International Research Group on Wood Protection. IRG Secretariat, Stockholm
Suprapti S, Djarwanto and Hudiansyah, (2004) The resistance of five wood species against several wood destroying fungi. J Peneli Hasil Hutan 22(4):239–246CrossRef
Systat (2006). SigmaStat ver 3.5 statistical software. Systat Software, Inc., San Jose (USA)
Teng TG, Arip MNM, Sudesh K, Nemoikina A, Jalaludin Z, Ng EP, Lee HL (2018) Conventional technology and nanotechnology in wood preservation: a review. BioResources 13(4):9220–9252CrossRef
Tripathi S, Kumar PP (2015) Treatability of Melia composita using vacuum pressure impregnation. Maderas-Cienc Tecnol 17(2):373–384
Uday DN, Sujatha D, Pandey CN (2011) Suitability of Melia dubia (Malabar neem wood) for plywood manufacture. J Ind Acad Wood Sci 8(2):207–211CrossRef
Winandy JE, Lebow PK (2001) Modeling strength loss in wood by chemical composition. Part I An individual component model for southern pine. Wood Fiber Sci 33(2): 239–254
Winandy JE (1995) Effects of waterborne preservative treatment on mechanical properties: A review. In: Proceedings of 91st Annual Meeting of AWPA, New York, May 21–24, Vol. 91, American Wood-Preservers' Association, Woodstock, Maryland: 17–33
Woodward B, De Groot R (1999) Tolerance of Wolfiporia cocos isolates to copper in agar media. Forest Prod J 49(4):87–94
Zelinka SL, Kirker GT, Sterbinsky GE, Bourne KJ (2022) Oxidation states of copper in preservative treated wood as studied by X-ray absorption near edge spectroscopy (XANES). PLoS ONE 17(1):e0263073CrossRefPubMedPubMedCentral
Zelinka SL (2014) Corrosion of metals in wood products. Chapter 23 in “Developments in Corrosion Protection”, M. Aliofkhazraei (Ed.), InTech: 567–592
Zhang J, Ziobro RJ (2009a) Micronized copper preservative system: Observations on the release of cupric ion (Cu2+) from treated wood and performance against wood decay fungi. Document No: IRG/WP 09–30519. The International Research Group on Wood Protection, Stockholm, Sweden. pp. 1–17
Zhang J, Ziobro RJ (2009b) Laboratory and field studies on the efficacy of micronized copper azole (MCA) preservative. Canadian Wood Preservation Association, CWPA Proceedings: 69–75
Metadaten
Titel
Effect of micronized copper treatments on retention, strength properties, copper leaching and decay resistance of plantation grown Melia dubia Cav. wood
verfasst von
S. R. Shukla
D. P. Kamdem
Publikationsdatum
13.10.2022
Verlag
Springer Berlin Heidelberg
Erschienen in
European Journal of Wood and Wood Products / Ausgabe 2/2023
Print ISSN: 0018-3768
Elektronische ISSN: 1436-736X
DOI
https://doi.org/10.1007/s00107-022-01889-1

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