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In a turning process using orthogonal tool geometry, a chip length of 100 mm is obtained for an uncut chip length of 250 mm.
The cutting conditions are cutting speed = 30 m/min. rake angle = 20°.
The shear plane angle is _________ degrees (round off to one decimal place).
    Correct answer is '23.5'. Can you explain this answer?
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    In a turning process using orthogonal tool geometry, a chip length of ...


    φ = tan–1 (0.4354) = 23.5°
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    In a turning process using orthogonal tool geometry, a chip length of ...
    The cutting speed is given as 30 m/min, which means that the cutting tool moves at a speed of 30 meters per minute relative to the workpiece.

    The chip length is given as 100 mm, which means that the length of the chip that is formed during the turning process is 100 mm.

    The uncut chip length is given as 250 mm, which means that the length of the material before it is cut is 250 mm.

    The rake angle is given as 20 degrees, which is the angle between the cutting tool and the workpiece.

    From this information, we can calculate the feed rate, which is the rate at which the cutting tool moves relative to the workpiece.

    The feed rate can be calculated using the formula:

    Feed rate = cutting speed / (uncut chip length / chip length)

    Substituting the given values into the formula:

    Feed rate = 30 m/min / (250 mm / 100 mm)

    Simplifying the expression:

    Feed rate = 30 m/min / 2.5

    Feed rate = 12 m/min

    Therefore, the feed rate in this turning process is 12 m/min.
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    In a turning process using orthogonal tool geometry, a chip length of 100 mm is obtained for an uncut chip length of 250 mm.The cutting conditions are cutting speed = 30 m/min. rake angle = 20°.The shear plane angle is _________ degrees (round off to one decimal place).Correct answer is '23.5'. Can you explain this answer?
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    In a turning process using orthogonal tool geometry, a chip length of 100 mm is obtained for an uncut chip length of 250 mm.The cutting conditions are cutting speed = 30 m/min. rake angle = 20°.The shear plane angle is _________ degrees (round off to one decimal place).Correct answer is '23.5'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared according to the GATE exam syllabus. Information about In a turning process using orthogonal tool geometry, a chip length of 100 mm is obtained for an uncut chip length of 250 mm.The cutting conditions are cutting speed = 30 m/min. rake angle = 20°.The shear plane angle is _________ degrees (round off to one decimal place).Correct answer is '23.5'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for In a turning process using orthogonal tool geometry, a chip length of 100 mm is obtained for an uncut chip length of 250 mm.The cutting conditions are cutting speed = 30 m/min. rake angle = 20°.The shear plane angle is _________ degrees (round off to one decimal place).Correct answer is '23.5'. Can you explain this answer?.
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