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Design and Analysis of Abrasive Machine for Surface Rust and Dust Removal
P. Dhiravidamani1, N. Muthu Kumar2, R. Dhineshkumar3, A.T Naveen Kumar4

1P.Dhiravidamani, Associate Professor, Department of Mechanical Engineering, KSR College of Engineering, Tiruchengode (Tamil Nadu), India.
2N.Muthu Kumar, PG Student, Industrial Safety Engineering, KSR College of Engineering, Tiruchengode (Tamil Nadu), India.
3R.Dhinesh Kumar, PG Student, Industrial Safety Engineering, KSR College of Engineering, Tiruchengode (Tamil Nadu), India.
4A.T. Naveen Kumar, PG Student, Industrial Safety Engineering, KSR College of Engineering, Tiruchengode (Tamil Nadu), India.
Manuscript received on 09 April 2018 | Revised Manuscript received on 17 April 2018 | Manuscript Published on 30 April 2018 | PP: 10-12 | Volume-7 Issue-7, April 2018 | Retrieval Number: G2498047718/18©BEIESP
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© The Authors. Blue Eyes Intelligence Engineering and Sciences Publication (BEIESP). This is an open access article under the CC-BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)

Abstract: Mechanical engineering without production and manufacturing is meaningless and inseparable. Production and manufacturing process deals with conversation of raw materials inputs to finished products as per required dimensions specifications and efficiently using recent technology. In order to perform different operation in a lathe such as different types of turning, chamfering, polishing, grooving, thread cutting, filling, knurling etc. This paper is based on high speed stream of abrasive particles carried in gas medium from a nozzle. The AJM process differs from conventional sand blasting in that the abrasive is much finer and the process parameters and cutting action are carefully controlled. In this paper, the job is held between the live and dead center and nozzle attachment is fixed over the work piece. From the nozzle the high velocity of air flow mixture of abrasive particles are fed in to the work piece and the material will be removed. The cutting action is cool because the carrier gas serves as a coolant. Design of abrasive chamber model with different sizes of nozzle is modeled in Pro-E software and different velocity result from models is analyzed by using Ansys 14.0 Software.
Keyword: Carrier gas, High Speed Stream, Blasting.
Scope of the Article: Machine Design