1 research outputs found
High-Performance Wet Adhesion of Wood with Chitosan
Strong adhesion is desirable when using wood with a wide
range
of moisture contents, but most of the existing adhesives face challenges
in bonding wood under high-humidity conditions. Here, we report a
simple strategy that involves the one-step dissolution of chitosan
powder in acetic acid at room temperature, followed by direct use
of the resulting chitosan slurry as an adhesive on dry/wet wood veneers.
Mechanical interlocks and hydrogen bonds at cell wall interfaces provided
strong adhesion. Moreover, heat treatment induced recrystallization
and cross-linking of chitosan chains, resulting in a high cohesion.
Meanwhile, heat treatment caused the acetylation reaction between
the protonated amino groups (NH3+) of chitosan
and acetate groups (CH3COO–) to produce
hydrophobic acetyl groups. In addition, we prepared wooden products
such as plywood (dry veneers) and wooden straws (wet veneers) using
wood veneers with different moisture contents. The tensile shear strengths
under 63 °C water and under boiling water of plywood were 1.12
and 0.81 MPa, respectively. The compressive strength of wooden straws
is up to 35.32 MPa, which was higher than that of existing commercial
straws (such as paper straws, polypropylene straws, and plastic straws).
The chitosan wet adhesive showed good water resistance, high bonding
strength, environmental degradability, and nontoxicity, thus providing
a highly promising alternative to traditional wood composite adhesives