The learner will cover aspects of maximizing milling cutter performance.
Optimizing Milling Cutter Performance
Question 1 of 10
Optimizing Milling Cutter Performance
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
Your Answer
Correct Answer
Machine time
Question 1 of 10
Optimizing Milling Cutter Performance
Question 1 of 10
Optimizing Milling Cutter Performance
Correct!
Correct Answer
Increase the depth of cut
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
Your Answer
Correct Answer
Increase the depth of cut
Question 1 of 10
Optimizing Milling Cutter Performance
When optimizing a job, one should consider:
Question 1 of 10
Optimizing Milling Cutter Performance
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
When optimizing a job, one should consider:
Your Answer
Correct Answer
All of the above
Question 1 of 10
Optimizing Milling Cutter Performance
Increasing the chip load often increases tool life because:
Question 1 of 10
Optimizing Milling Cutter Performance
Correct!
Increasing the chip load often increases tool life because:
Correct Answer
Increasing the chip load inceases chip thickness
A thicker chip carries more heat away from the insert.
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
Increasing the chip load often increases tool life because:
Your Answer
Correct Answer
Increasing the chip load inceases chip thickness
A thicker chip carries more heat away from the insert.
Question 1 of 10
Optimizing Milling Cutter Performance
True or False: Optimization is a process used to reduce the cycle time after the machine program has been debugged.
Question 1 of 10
Optimizing Milling Cutter Performance
Correct!
True or False: Optimization is a process used to reduce the cycle time after the machine program has been debugged.
Correct Answer
True
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
True or False: Optimization is a process used to reduce the cycle time after the machine program has been debugged.
Your Answer
Correct Answer
True
Question 1 of 10
Optimizing Milling Cutter Performance
Question 1 of 10
Optimizing Milling Cutter Performance
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
Your Answer
Correct Answer
None of the above
Question 1 of 10
Optimizing Milling Cutter Performance
Under normal circumstances, the best approach to reducing cycle time in a face milling operation is to (in which order):
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Increase the speed, increase the depth of cut, then increase the chip load per tooth
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Increase the chip load, increase the depth of cut, then increase the speed
-
Increase the depth of cut, increase the speed, then increase the chip load
-
Increase the speed, increase the chip load, then increase depth of cut
Question 1 of 10
Optimizing Milling Cutter Performance
Correct!
Under normal circumstances, the best approach to reducing cycle time in a face milling operation is to (in which order):
Correct Answer
Increase the chip load, increase the depth of cut, then increase the speed
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
Under normal circumstances, the best approach to reducing cycle time in a face milling operation is to (in which order):
Your Answer
Correct Answer
Increase the chip load, increase the depth of cut, then increase the speed
Question 1 of 10
Optimizing Milling Cutter Performance
The ultimate goal of milling cutter optimization is:
Question 1 of 10
Optimizing Milling Cutter Performance
Correct!
The ultimate goal of milling cutter optimization is:
Correct Answer
To reduce total part cost
Question 1 of 10
Optimizing Milling Cutter Performance
Incorrect
The ultimate goal of milling cutter optimization is:
Your Answer
Correct Answer
To reduce total part cost
Question 1 of 10
- Author
- Published
- 4/2/2015
- Last Updated
- 4/2/2015
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Optimizing Milling Cutter Performance by Fox Valley Technical College is licensed under a Creative Commons Attribution 3.0 Unported License.