Biomaterials enable research and advancement, and current research aims to create biohybrid environmental materials that are biodegradable and have better properties. The experimentation is based on evaluation of the production and performance of biohybrid composites using kenaf-flax natural fibers and kenaf-flax composite plant joints, as well as evaluation of all aspects and combinations of crab shell powder to support the following laminates bonded with epoxy resin. The biohybrid reinforced composite is manufactured using a manual method and tested for tensile, flexural and hardness according to ASTM standards. The test results were analyzed using the finite element method. Research shows that flax, kenaf and crab shell amalgams have superior strength in tensile strength, flexural strength and hardness than flax and kenaf amalgams (22.161%, 9.64% and 14.43%, respectively). The analytical results were immediately compared and aligned with the experimental results.

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Study and Interpretation of Mechanical Behavior of a Hybrid Composite Made from Biodegradable Constituents

  • Haribabu Yegireddy,
  • Sagar Yanda,
  • Jithendra Sai Raja Chada,
  • Apparao Damarasingu,
  • Satish Geeri

摘要

Biomaterials enable research and advancement, and current research aims to create biohybrid environmental materials that are biodegradable and have better properties. The experimentation is based on evaluation of the production and performance of biohybrid composites using kenaf-flax natural fibers and kenaf-flax composite plant joints, as well as evaluation of all aspects and combinations of crab shell powder to support the following laminates bonded with epoxy resin. The biohybrid reinforced composite is manufactured using a manual method and tested for tensile, flexural and hardness according to ASTM standards. The test results were analyzed using the finite element method. Research shows that flax, kenaf and crab shell amalgams have superior strength in tensile strength, flexural strength and hardness than flax and kenaf amalgams (22.161%, 9.64% and 14.43%, respectively). The analytical results were immediately compared and aligned with the experimental results.