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Preliminary Study of Rapeseed Flour-based Wood Adhesives for Making Wood Flooring

  • Yang, In (Department of Wood and Paper Science, Chungbuk National University) ;
  • Ahn, Sye-Hee (Department of Forest Resources, Daegu University) ;
  • Choi, In-Gyu (Department of Forest Sciences, Seoul National University) ;
  • Han, Gyu-Seong (Department of Wood and Paper Science, Chungbuk National University) ;
  • Oh, Sei-Chang (Department of Forest Resources, Daegu University)
  • Received : 2011.09.08
  • Accepted : 2011.09.21
  • Published : 2011.09.25

Abstract

Adhesives derived from renewable resources allow wood panel producers to make lower cost alternatives to formaldehyde-based adhesive resins. Among them, adhesive components extracted from industrial by-products or wastes are the most important research fields in the efficient utilization of waste and cost reduction. In our study, the rapeseed flour, which is a by product from the production of biodiesel extracted from rapeseed, was introduced to develop alternative adhesives for the production of wood flooring. The rapeseed flour was hydrolyzed with 1% sodium hydroxide solution and PF prepolymers were prepared with 3-molar ratios, 1.8, 2.1 and 2.4. The linear fracture mechanics was introduced to evaluate the glue bond quality in wood flooring composed of fancy-veneered and plywood, and the formaldehyde emission and adhesive penetration were also investigated. The formaldehyde emissions of wood flooring met the requirement of the standard of $SE_0$ specified in the KS standard. The rapeseed flour adhesive penetrated sufficiently into the vessel elements and lumens in fancy veneer and plywood and gave strong bond quality to the wood flooring. The fracture mechanics was introduced to evaluate the adhesive joint between fancy veneer and plywood. The critical stress intensity factor ($K_{IC}$) of boliva overlayed wood flooring was increased with increasing molar ratio and this was the same tendency in oak overlayed wood flooring. From the results, the formulated adhesives were efficiently used to bond fancy veneer onto the plywood to make wood flooring and showed a potential to be used as a component of environmentally friendly adhesive resin systems for production of flooring.

Keywords

References

  1. Barbosa, A. P., E. B. Mano, and C. T. Andrade. 2000. Tannin-based resins modified to reduce wood adhesive brittleness. For. Prod. J. 50(9): 89-92.
  2. Christiansen, A. W. and R. H. Gillespie. 1986. Potential of carbohydrates for exterior-type adhesives. For. Prod. J. 36(7/8): 20-28.
  3. Conrad, M. P. C., G. D. Smith, and G. Fernlund. 2003. Fracture of discontinuous wood-adhesive bonds. International J. of Adhesion and Adhesives 23: 39-47. https://doi.org/10.1016/S0143-7496(02)00080-5
  4. Korean Standard Association. 2006. Fiberboards. KS F 3200.
  5. Korean Standard Association. 2006. Determinatuion of the formaldehyde emission of building interior products. -Part 4. Desiccator method. KS M 1998-4.
  6. Korean Standard Association. 2008. Natural wood veneer flooring board. KS F 3111.
  7. Kuo, M. L., D. J. Myers, H. Heemstra, D. Curry, D. O. Adams, and D. D. Stokke. 2001. Soybeanbased adhesive resins and composite products utilizing such adhesives. U.S. Patent 6,306,997.
  8. Lei, Y. and J. B. Wilson. 1979. Fracture toughness of parallel-laminated veneer. For. Prod. J. 29: 28-32.
  9. Lei, Y. and J. B. Wilson. 1980. Fracture toughness of oriented flakeboard. Wood Science 12: 154-161.
  10. Lei, Y. and J. B. Wilson. 1981. A model for predicting fracture toughness of flakeboard. Wood Science 13: 151-156.
  11. Oh, Y., T. Seller Jr. T, M. G. Kim, and R. C. Strickland. 1994. Evaluation of phenol-formaldehyde OSB resins modified with lignin residues from acid-hydrolyzed waste newsprint. For. Prod. J. 44(2): 25-29.
  12. Olivares, M., H. Aceituno, G. Neiman, E. Rivera, and T. Seller Jr. 1995. Lignin-modified phenolic adhesives for bonding Radiata pine plywood. For. Prod. J. 45(1): 63-67.
  13. Riebel, M. J., P. L. Torgusen, K. D. Roos, D. E. Anderson, and C. Gruber. 1997. Bio-composite material and method of making. U.S. Patent 5,635,123.
  14. River, B. H. 1994. Fracture of adhesive-bonded wood joints, In: Handbook of Adhesive Technology. pp. 151-177. Marcel Dekker.
  15. Steele, P. H., R. E. Kreibich, P. J. Steynberg, and R. W. Hemingway. 1998. Finger jointing green southern yellow pine with a soy-based adhesive. Adhesive Age (October): 49-54.

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