COMPARATIVE ANALYSIS ON COMPRESSIVE STRENGTH OF PVC COUPLING WITH 3D PRINTED PLA COUPLING

Authors

  • Sanket S.Chikshe Asst. Prof.Department of Mechanical EngineeringDr. D. Y. Patil College of Engineering &Innovation, Varale, Talegaon, Pune
  • Shubham U. Joshi Department of Mechanical Engineering Dr. D. Y. Patil College of Engineering &Innovation,Varale,Talegaon, Pune
  • Ajit P. Gorte Department of Mechanical Engineering Dr. D. Y. Patil College of Engineering &Innovation,Varale,Talegaon, Pune

Keywords:

3D printing, Rapid prototyping;, Additive manufacturing

Abstract

In the world of emergent technology, 3D printing has been replaced the entire industrialized firm/system with its improved version of building parts layer by layer using additive approach and new trends. A widestudy has been carried out for comparing it with conventionalmanufacturing techniqueintended designed for productionof components, compound objects for hundreds of different applications. 3D printing technology is extremely adaptable and quick process, speed up innovation and reduce energy usage, minimize material and compress supply chains. This paper also describes the feed mechanism and process related information, sustaining material, software used in 3D printer and some recent developments on 3D printing technology. Rapid manufacturing defined as the direct production of completed goods from a rapid prototyping device remains at present more a goal than reality for industry. The application of 3D printing technologies, however, promises to combinerapid prototyping capabilitieswith the high-volume outputof traditional developed. Proponents considerthat these processes may soon guideto the too less production of finished goods and the mass production of independentlymodified parts

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Published

2021-03-27

Issue

2019: NCTEP

Section

Articles

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