Add to ORKG132-137A series of biodegradable composites has been prepared using sugarcane bagasse fibres as reinforcement and soy protein isolate (SPI) as matrix. Sugarcane bagasse has been pretreated with 2% NaOH solution for improving its reinforcement. Recipe for matrix includes soy protein isolate as prime ingredient, glyoxal as crosslinking agent and glycerol as plasticizer. The composites are characterised for tensile properties. Three-factor and three-level Box-Behnken design is used to optimize the mass fraction of fibres, percentage of crosslinking and plasticizing agent. The model predicts that the best possible results would be achieved with the recipe having 20% fibres with matrix recipe of 11% glyoxal, 17.7% glycerol and 51.3% SPI by weigh...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
The stiffness of a material greatly influences its possible use as an engineering material. Thus, de...
A series of biodegradable composites has been prepared using sugarcane bagasse fibres as reinforceme...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Greener composites, as alternatives to more common materials, should also achieve technical and econ...
Greener composites, as alternatives to more common materials, should also achieve technical and econ...
Sugarcane fibers have been studied as reinforcement fibers to develop biocomposites of sugarcane fib...
The natural fibre containing cellulose as its main component that can be used as an alternative mate...
This research investigates utilization of bagasse to make biocomposite with thermoplastic polypropyl...
PLA/sugarcane bagasse fiber composites were prepared by injection molding from two fractions of fibe...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
The stiffness of a material greatly influences its possible use as an engineering material. Thus, de...
A series of biodegradable composites has been prepared using sugarcane bagasse fibres as reinforceme...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and ca...
Greener composites, as alternatives to more common materials, should also achieve technical and econ...
Greener composites, as alternatives to more common materials, should also achieve technical and econ...
Sugarcane fibers have been studied as reinforcement fibers to develop biocomposites of sugarcane fib...
The natural fibre containing cellulose as its main component that can be used as an alternative mate...
This research investigates utilization of bagasse to make biocomposite with thermoplastic polypropyl...
PLA/sugarcane bagasse fiber composites were prepared by injection molding from two fractions of fibe...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
Sugarcane bagasse was treated to obtain sawdust, in addition to mechanical, thermomechanical, and ch...
The stiffness of a material greatly influences its possible use as an engineering material. Thus, de...