AHSS tool is used to turn a steel workpart that is 300 mm long and 80 mm in diameter. The arameters in the Taylor equation are; n=0.13 and C= 75 (m/min) for a feed of 0.4 mm/rev. he operator and machine tool rate = $30.00/hr, and the tooling cost per cutting edge 4.00. It takes 2.0 min to load and unload the workpart and 3.50 min to change tools. Determine: a. Tutting speed for maximum production rate, b. Tool life in min of cutting, and c. Cycle time and cost per unit of product.
AHSS tool is used to turn a steel workpart that is 300 mm long and 80 mm in diameter. The arameters in the Taylor equation are; n=0.13 and C= 75 (m/min) for a feed of 0.4 mm/rev. he operator and machine tool rate = $30.00/hr, and the tooling cost per cutting edge 4.00. It takes 2.0 min to load and unload the workpart and 3.50 min to change tools. Determine: a. Tutting speed for maximum production rate, b. Tool life in min of cutting, and c. Cycle time and cost per unit of product.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![A HSS tool is used to turn a steel workpart that is 300 mm long and 80 mm in diameter. The
parameters in the Taylor equation are: n=0.13 and C= 75 (m/min) for a feed of 0.4 mm/rev.
The operator and machine tool rate = $30.00/hr, and the tooling cost per cutting edge =
$4.00. It takes 2.0 min to load and unload the workpart and 3.50 min to change tools.
Determine:
a. Tutting speed for maximum production rate,
b. Tool life in min of cutting, and
c. Cycle time and cost per unit of product.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9874cb78-6865-4a31-931c-736f0979d3e8%2Ffb62886e-dc10-4f99-a970-665498053a10%2Ftopxdcs_processed.png&w=3840&q=75)
Transcribed Image Text:A HSS tool is used to turn a steel workpart that is 300 mm long and 80 mm in diameter. The
parameters in the Taylor equation are: n=0.13 and C= 75 (m/min) for a feed of 0.4 mm/rev.
The operator and machine tool rate = $30.00/hr, and the tooling cost per cutting edge =
$4.00. It takes 2.0 min to load and unload the workpart and 3.50 min to change tools.
Determine:
a. Tutting speed for maximum production rate,
b. Tool life in min of cutting, and
c. Cycle time and cost per unit of product.
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