Define specific energy for plane strain machining (cutting). In plane-strain machining, the two main sources of energy dissipation are deformation along the shear plane (~70%) and friction at the tool-chip contact along the rake face (~30%). Consider machining of a rigid perfectly-plastic work material whose uniaxial yield stress is 700 MPa, and is independent of strain rate and temperature. A tool of zero-degree rake angle is employed. Measurements showed the (deformed) chip thickness to be twice that of the undeformed chip thickness. Based on the aforementioned distribution of energy, estimate the specific energy for this process.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Define specific energy for plane strain machining (cutting).
In plane-strain machỉning, the two main sources of energy dissipation are deformation along
the shear plane (~70%) and friction at the tool-chip contact along the rake face (~30%).
Consider machining of a rigid perfectly-plastic work material whose uniaxial yield stress is
700 MPa, and is independent of strain rate and temperature. A tool of zero-degree rake angle
is employed. Measurements showed the (deformed) chip thickness to be twice that of the
undeformed chip thickness. Based on the aforementioned distribution of energy, estimate the
specific energy for this process.
Transcribed Image Text:Define specific energy for plane strain machining (cutting). In plane-strain machỉning, the two main sources of energy dissipation are deformation along the shear plane (~70%) and friction at the tool-chip contact along the rake face (~30%). Consider machining of a rigid perfectly-plastic work material whose uniaxial yield stress is 700 MPa, and is independent of strain rate and temperature. A tool of zero-degree rake angle is employed. Measurements showed the (deformed) chip thickness to be twice that of the undeformed chip thickness. Based on the aforementioned distribution of energy, estimate the specific energy for this process.
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