Chemical modification of wood fiber on the properties of Polypropylene/Wood fiber composites
Abstract
The surface of wood fiber used as reinforcement in polypropylene/wood fiber
composites was modified by acrylic acid. The effect of filler loading and acrylic acid as
compatibilizer on mechanical properties, water absorption and morphology was investigated. The composites were prepared by using Z-blade mixer at processing
temperature 180°C and rotor speed 50 rpm. The result indicated that the increasing of
filler loading increased Young’s modulus and water absorption but reduces the tensile
strength and elongation at break. The presence of acrylic acid indicates tensile strength and Young’s modulus are increase but the elongation at break is decreased. The
swelling behavior of treated PP/wood fiber composite shows better water resistance
compared to untreated PP/wood fiber composites. The scanning electron microscope
(SEM) micrograph of fracture tensile surface shows that the treated PP/wood fiber composites show better filler dispersion in matrix and embedded fiber into the matrix
compared to untreated PP/wood fiber composites. The addition of acrylic acid as
compatibilizer can improve the interfacial adhesion between matrix and filler, and this
attribute enhance the properties of PP/wood fiber composites.