The present thesis focuses on the corresponding and cost-effective analysis of the mechanical properties of distinct fill percentages. In short, the technology of producing a model based on the development of a three-dimensional Computer-Aided Design structure is called additive manufacturing by the ASTM standard. In the sense of producing a product directly from digital data, different technologies are widely involved. One of them is Fused Deposition Modelling (FDM), which oversees the AM concept, and is generally known for creating a robust polymer-built range of materials or parts with operational mechanical properties. The key concern, however, exaggerates that the quality of the production still denies that empty parts are produced from trapped bubbles that lead to mechanical stress failure of parts. Because with 15 percent infill, stronger sections and their mechanicaldimensional datasets are estimated. The properties are analysed. Since the work indicates the impact of 15 percent infill on mechanical properties by the layered addition method in estimating stronger goods. In order to achieve and study material mechanical properties, the experimental approach is based on structural infill parameters that define the objective. Proving that embedding infill gave the existing materials increased mechanical strength from the results obtained, retaining increased strength with the lowered weight leading to a futuristic solution.

Author (s) Details

Mr. A. V. Sridhar
Department of Mechanical Engineering, GIT, GITAM, Visakhapatnam, India.

Mr. D. Vamsi Teja
Department of Mechanical Engineering, GIT, GITAM, Visakhapatnam, India.

K. V. V. N. R. Chandra Mouli
Department of Mechanical Engineering, GIT, GITAM, Visakhapatnam, India.

Dr. Balla Srinivasa Prasad
Department of Mechanical Engineering, GIT, GITAM, Visakhapatnam, India.

Ms. Padmaja Anipey
Department of Mechanical Engineering, Vizag Institute of Technology, Visakhapatnam, India.

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