Fabrication of bio-fiber based Eichhornia crassipes /Al 2 O 3 particles hybrid biocomposites and investigation of important properties

The need for environmentally friendly composite materials that meet the necessary criteria is growing. Making novel environmentally acceptable composites with hybrid Eichhornia crassipes (EGs)/Al 2 O 3 particles is an option. This paper aims to investigate the thermal, tensile strength, and flexural strength properties of a polyester composite filled with hybrid EG/Al 2 O 3 particles. The tensile strength, flexural strength, and morphology of EGs/Al 2 O 3 hybrid composite will be investigated in this work. The hot pressed for 60 minutes at 170°C procedure was used to shape the hybrid composite. EGs/Al 2 O 3 particles content was altered from 0:25 to 5:20, 10:15 to 15:10, 20:5, and 25:0 (vol.%). The results reveal that when the EGs content of the composite is in the range of 10–15% (vol.%), the tensile and bending strength of the composite increases. The EGI (15% EGs:10% Al 2 O 3 ) and EGH (10% EGs:10% Al 2 O 3 ) composites had the highest tensile and bending strengths, with 38.697 and 77.786 MPa, respectively. The boost in strength is thought to be due to Al 2 O 3 acting as a cursor in the composite, preventing fracture progression. The scanning electron microscope (SEM) fracture morphology reveals a strong and tight interfacial connection between the EGs, Al 2 O 3 , and polyester layers. In addition, when the EGs grew, the composites’ thermal characteristics improved. According to the findings, the EGs/ Al 2 O 3 particle hybrid composite can be used in automotive applications.