Call For Paper Volume:8 Issue:12 Dec'2021 |

Experimental Investigation for Surface Roughness in Turning of Reinforced Polymer Composite Material using Different Coolants

Publication Date : 18/12/2021


DOI : 10.21884/IJMTER.2021.8042.GDPNS

Author(s) :

Shaikh Asif , D.S.Khedekar.


Volume/Issue :
Volume 8
,
Issue 12
(12 - 2021)



Abstract :

Due to superior strength to weight ratio and good tribological properties, polymer matrix composite has seen its development in leaps and bounds settings its foot in almost all manufacturing industries. Polyamide 6 GF-15 is a very common thermoplastic polymer composite with a number of applications such as gears, bearings, which can be due to their impact resistance, fatigue resistance, thermal resistance, wear resistance , high strength and low cost of manufacturing Also Vegetable oils have traditionally been applied in food uses but recent trend suggests that it has economic usefulness as an industrial fluids. Increasing crude oil prices and emphasis on the development of renewable, environment friendly fluids have brought vegetable oils to a place of prominence. As environment pollution and health problem are becoming more and more concerned, the use of environment friendly lubricants is strongly supported by manufacturer. The objective of this work is to investigate machining characterstics of Polyamide 6 GF-15 also the influence of lubricant on surface roughness by using CNC LATHE Machine. The Regression Analysis has performed by using Least square principle approximation and Roughness value (Ra) predicted by using Speed, Feed and Depth of cut as a function. The experimentation is proposed to identify the influence of Powercut oil and Cottonseed oil as a coolant in Turning of Polyamide 6 GF-15. The above experimentation will help practitioners to compare and increase Surface finish and possible use of environment friendly cutting oils in future.


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Experimental Investigation for Surface Roughness in Turning of Reinforced Polymer Composite Material using Different Coolants

December 13, 2021