In a production operation, a high-speed steel face cutting tool with 8 cutting edges is used for the face milling of a rectangular workpiece with dimensions of 650 mm length x 120 mm width x 100mm thickness and 4 J/mm3 specific energy of cutting. The cutting tool has a diameter of 60 mm and is cutting with a rotational speed of 500 RPM and a chip load of 0.1 mm/tooth. If the part thickness is to be reduced to 95 mm using a 5 mm depth of cut and a width of cut of 40 mm, then find the following; a) The total time (min) to machine the workpiece b) Material removal rate during the cut c) The power (kw) consumed while the tool is engaged in cutting of the workpiece d) The Cutting force Fe

In a production operation, a high-speed steel face cutting tool with 8 cutting edges is used for the face milling of a rectangular workpiece with dimensions of 650 mm length x 120 mm width x 100mm thickness and 4 J/mm3 specific energy of cutting. The cutting tool has a diameter of 60 mm and is cutting with a rotational speed of 500 RPM and a chip load of 0.1 mm/tooth. If the part thickness is to be reduced to 95 mm using a 5 mm depth of cut and a width of cut of 40 mm, then find the following; a) The total time (min) to machine the workpiece b) Material removal rate during the cut c) The power (kw) consumed while the tool is engaged in cutting of the workpiece d) The Cutting force Fe

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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Concept explainers

Machining Processes and Machine Tools

Machining is represented as the process in which an excessive amount of substance is eliminated from the particular element in the form of pieces. In machining, cutting tools such as rotary tools, lathe, drill press, grinder, chop saw, welders, and many more are applied to get the desired shape. As compared to other manufacturing processes, machining is precise and versatile.

Question

In a production operation, a high-speed steel face cutting tool with 8 cutting edges is used for the face milling
of a rectangular workpiece with dimensions of 650 mm length x 120 mm width x 100mm thickness and 4
J/mm3 specific energy of cutting. The cutting tool has a diameter of 60 mm and is cutting with a rotational
speed of 500 RPM and a chip load of 0.1 mm/tooth. If the part thickness is to be reduced to 95 mm using a 5
mm depth of cut and a width of cut of 40 mm, then find the following;
a) The total time (min) to machine the workpiece
b) Material removal rate during the cut
c) The power (kw) consumed while the tool is engaged in cutting of the workpiece
d) The Cutting force Fc

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