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W2183410080 abstract "In today's era of composite materials, glass fibre-reinforced plastics (GFRP) composite materials are used in many different engineering applications. The need for machining of GFRP composites has not been eliminated fully.In the presentwork effect of process parameters such as rake angle, feed rate, depth of cut and cutting speed on performance measures of cutting force and thrust force of GFRP material on conventional all geared lathe machine. For the present investigation experiment has been designed with mixed level Taguchi experiment design and analysis of the cutting force and thrust force has been carried out. the fibers was less than that orthogonal to the fibers and ex- plained this in terms of the different failure mechanisms de- scribed by Koplev. The force required to cause failure of the fibers by buckling is less than that required to cause failure by shear. However, their analysis was qualitative and no attempt was made to predict the forces involved. Chung-Shin Changconduct experiments and found machinabil- ity of high-strength glass fiber reinforced plastics (GFRP) ma- terials in turning with chamfered main cutting edge of P and K type carbide tools. Chip formation mechanisms have been ob- served with respect to tip's geometries and nose radii. Experi- mental results for cutting forces were also taken and estimated the empirical constants of the mechanical model and verified its prediction capabilities. The results showed good agreement between the predicted and measured forces. In this study, the nose radius R = 0.3mm induces a decrease of the cutting force and the smallest cutting force values. It was compared the dif- ferent P and K type of tools, K type tool was better than P type of chamfered main cutting edge tools. The theoretical values of cutting forces were calculated and compared with the experi- mental results; the forces predicted by this model were consist- ent with the experimental values. METHODOLOGY This section describes the materials and methods used for the processing of the composites under this investigation. Here ex- perimental setup, process and response parameters, and their measuring method discussed in detail. The methodology based on Taguchi experimental design and graphical interpretation of the cutting and thrust forces." @default.
W2183410080 created "2016-06-24" @default.
W2183410080 creator A5074539529 @default.
W2183410080 date "2014-01-01" @default.
W2183410080 modified "2023-09-26" @default.
W2183410080 title "Force Analysis in Orthogonal Cutting of" @default.
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W2183410080 hasPublicationYear "2014" @default.
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