Add to ORKGPP/sugarcane bagasse fiber composites were prepared by injection molding from two fractions of fibers with different particle characteristics. The mechanical properties of the composites were characterized by tensile and impact measurements, while local deformation processes by acoustic emission testing and microscopy. The determination of fiber dimensions after processing showed that considerable attrition takes place during melt processing in both the length and the diameter of the fibers. Interfacial adhesion can be improved considerably by coupling. The strength of adhesion was estimated quantitatively and adhesion was ten times stronger (1600 mJ/m2) in the presence of the coupling agent than without it (140 mJ/m2) leading to larger c...
The stiffness of a material greatly influences its possible use as an engineering material. Thus, de...
This research investigates utilization of bagasse to make biocomposite with thermoplastic polypropyl...
Natural fibers have the ability to reinforce polymeric materials. In this work, sugar palm fibers we...
PLA/sugarcane bagasse fiber composites were prepared by injection molding from two fractions of fibe...
Polypropylene composites were prepared from sugarcane bagasse fibers by extrusion and injection mold...
It is evident that sugarcane/bagasse is a highly potential natural composite fiber. In this study, t...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
BMC (Bulk Molding Compound) is composed of glass fiber. UP (unsaturated polyester) resin and filler....
ABSTRACT: Bagasse fiber is a residue of the sugar cane milling process. In this research bagasse fib...
AbstractRecently the interest in composite materials reinforced with natural fibers has considerably...
The purpose of this research is to study the physical, mechanical and morphology of sugarcane bagass...
Polypropylene composites were prepared from neat and alkali-treated sugarcane bagasse fibers. The re...
The main objective of this research was to study the potential of bagasse fibers as reinforcement fo...
In this research, the possibility of using lignocellulosic fibers with polypropylene was studied. Th...
ABSTRACT: Bagasse was modified with sodium hydroxide and silane, and the obtained three polymer comp...
The stiffness of a material greatly influences its possible use as an engineering material. Thus, de...
This research investigates utilization of bagasse to make biocomposite with thermoplastic polypropyl...
Natural fibers have the ability to reinforce polymeric materials. In this work, sugar palm fibers we...
PLA/sugarcane bagasse fiber composites were prepared by injection molding from two fractions of fibe...
Polypropylene composites were prepared from sugarcane bagasse fibers by extrusion and injection mold...
It is evident that sugarcane/bagasse is a highly potential natural composite fiber. In this study, t...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
BMC (Bulk Molding Compound) is composed of glass fiber. UP (unsaturated polyester) resin and filler....
ABSTRACT: Bagasse fiber is a residue of the sugar cane milling process. In this research bagasse fib...
AbstractRecently the interest in composite materials reinforced with natural fibers has considerably...
The purpose of this research is to study the physical, mechanical and morphology of sugarcane bagass...
Polypropylene composites were prepared from neat and alkali-treated sugarcane bagasse fibers. The re...
The main objective of this research was to study the potential of bagasse fibers as reinforcement fo...
In this research, the possibility of using lignocellulosic fibers with polypropylene was studied. Th...
ABSTRACT: Bagasse was modified with sodium hydroxide and silane, and the obtained three polymer comp...
The stiffness of a material greatly influences its possible use as an engineering material. Thus, de...
This research investigates utilization of bagasse to make biocomposite with thermoplastic polypropyl...
Natural fibers have the ability to reinforce polymeric materials. In this work, sugar palm fibers we...