Abstract:
The development and optimization of an environmental friendly wood
adhesive system for plywood from abundant and renewable cornstarch and
pine bark are presented in this study. Cornstarch was chemically modified by
two methods viz., oxidation with 3% (w/w) hydrogen peroxide and also
chemically fortified with glycerol and/or oxalic acid in the range (10-50 %)
(w/w). Pine bark is a waste product also used to modify cornstarch hence the
optimized conditions for the preparation of cornstarch-liquefied pinus bark
adhesives were determined. Pine bark in phenol in the weight ratio of (2:1 =
phenol: bark) with the catalyst of para toluene sulphonic acid yielded 65%
(w/w) liquefaction product and oxidized cornstarch was blended at different
weight ratios to investigate the improvement of thermoplastic nature. The
influence of oxidation and blending of cornstarch was evaluated and the
optimum parameters studied are the percentage of cornstarch, amount of
liquefied bark in the adhesive system and pressing time of the plywood
specimens. Shear strength of different concentrations of modified cornstarch
and unmodified cornstarch were compared. It was found that cornstarch at 65
% weight ratio with that of 10% (w/w) liquefied bark addition has improved
the mechanical properties of both oxidized and native cornstarch. The
optimum time at 120oC temperature hot pressing was 5 min. The results
indicated that the thermo plasticized corn starch specimens containing a
mixed plasticizer showed the highest values of shear strength, because this
mixed plasticizer system could form stronger hydrogen bonds with wood and
cornstarch molecules.