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Metal Cutting
Resultant Force on Workpiece in Merchant Force Circle Formulas
Resultant force on workpiece is the vector sum of cutting force and thrust force. And is denoted by R
'
. Resultant Force on Workpiece is usually measured using the Newton for Force. Note that the value of Resultant Force on Workpiece is always negative.
Formulas to find Resultant Force on Workpiece in Merchant Force Circle
f
x
Resultant force in merchant circle for given cutting force, friction and normal rake angles
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f
x
R in merchant circle for given force along shear force, shear, friction and normal rake angles
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Merchant Force Circle formulas that make use of Resultant Force on Workpiece
f
x
Normal rake angle for given Resultant force, force along shear, shear, and friction angle
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List of variables in Merchant Force Circle formulas
f
x
Cutting Force on Workpiece
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f
x
Machining Friction Angle
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f
x
Cutting Tool Rake Angle
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f
x
Force Produced Along Shear Plane
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f
x
Shear Angle for Metal Cutting
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FAQ
What is the Resultant Force on Workpiece?
Resultant force on workpiece is the vector sum of cutting force and thrust force. Resultant Force on Workpiece is usually measured using the Newton for Force. Note that the value of Resultant Force on Workpiece is always negative.
Can the Resultant Force on Workpiece be negative?
Yes, the Resultant Force on Workpiece, measured in Force can be negative.
What unit is used to measure Resultant Force on Workpiece?
Resultant Force on Workpiece is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Resultant Force on Workpiece can be measured.
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