Wet extrusion molding of wood powder with hydroxy-propylmethyl cellulose and with citric acid as a crosslinking agent

Abstract: To mitigate global warming and the serious problems incurred by the disposal of petroleum-based plastics, it is important to develop derivatives of biomass materials that can be used as substitutes. To overcome the lack of thermoplasticity of wood, a wet extrusion molding process for wood powder using a cellulose derivative, hydroxypropylmethyl cellulose (HPMC), had been developed. However, this material quickly reabsorbed water, swelled, and disintegrated in liquid. In the present study, a natural organic aci… Show more

“…A WPC is produced by combining powdered wood and a thermoplastic resin and molding it [8]. As a resin-free method, a molding method using hydroxypropylmethyl cellulose and citric acid instead of the thermoplastic resin was proposed by Tao et al [9]. Methods of pretreating wood powder, such as steaming or benzylation, to increase its thermoplasticity, and molding it without resin have also been proposed [10][11][12].…”

Deep Container Fabrication by Forging with High- and Low-Density Wood

“…A WPC is produced by combining powdered wood and a thermoplastic resin and molding it [8]. As a resin-free method, a molding method using hydroxypropylmethyl cellulose and citric acid instead of the thermoplastic resin was proposed by Tao et al [9]. Methods of pretreating wood powder, such as steaming or benzylation, to increase its thermoplasticity, and molding it without resin have also been proposed [10][11][12].…”

Deep Container Fabrication by Forging with High- and Low-Density Wood

Thermal extrusion of cellulose using hydroxypropyl methylcellulose

Biobased and mechanically stiff lignosulfonate/cationic-polyelectrolyte/sugar complexes with coexisting ionic and covalent crosslinks