The aim of this work intense on study of Femur Bone and compilation of the strength and further parameters of bone and compare the investigational results of the 12%, 18% & 24% NFRPC material with the Femur bone. This study signifying the lowest-weight, lowest-Density and highest-strength Bio composite, biocompatible material utilizes or advises to the Orthopedic Implants particularly for Femur bone. From the investigational results of Tensile strength of all 12%, 18% & 24% NFRPC material will match with femur Bone strength fand recommended these polymers for Femur bone replacement.
Composites in medical sectors are effective and productive phenomena in fulfilling various necessary demands. Through proven results as a base, this technique can be used for further research to enhance the existing parameters. In this connection, present research extensively focuses upon studying the mechanical properties (Compression and Bending) and characterization of fibre reinforced composite materials along with Al2O3 as filler materials. Present study involves the investigation of mechanical properties like compression and bending for NFRPC (Natural Fiber Reinforced Polymer Composite) as bio material, Epoxy resin-LY556 as matrix material, using suitable hardener and natural fibers (Kenaf/Hemp) as reinforcement materials considering Al2O3 as filler material with appropriate percentage to enhance strength and hardness of the composites. Prepared specimens were subjected to (Compression/D-3410 and Bending/D-790) examinations. Later they were compared with the femur bone properties. It was noticed that NFRPC properties will match the femur Bone Strengths and results shows 12, 18 & 24% of NFRPC material are appropriate for orthopaedic implants. From the investigated results finally, it concludes that the mechanical properties like compression and bending will be increased with increasing proportion of fiber in composites.
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