How to Calculate Shear stress given cutting force, cut size, uncut chip thickness, friction, rake and shear angles?
Shear stress given cutting force, cut size, uncut chip thickness, friction, rake and shear angles calculator uses Average Shear Stress Induced on Shear Plane = Cutting Force on Workpiece*(cos(Shear Angle for Metal Cutting+Machining Friction Angle-Cutting Tool Rake Angle))/(Cutting Thickness*Uncut Chip Width*cos(Machining Friction Angle-Cutting Tool Rake Angle)) to calculate the Average Shear Stress Induced on Shear Plane, The Shear stress given cutting force, cut size, uncut chip thickness, friction, rake and shear angles formula is defined as cutting force multiplied by the cosine of summation of shear angle to the difference of friction and rake angles divided by the product of the uncut chip thickness, width of cut and cosine of difference of friction and rake angles. Average Shear Stress Induced on Shear Plane is denoted by τs symbol.
How to calculate Shear stress given cutting force, cut size, uncut chip thickness, friction, rake and shear angles using this online calculator? To use this online calculator for Shear stress given cutting force, cut size, uncut chip thickness, friction, rake and shear angles, enter Cutting Force on Workpiece (F'c), Shear Angle for Metal Cutting (ϕ'), Machining Friction Angle (β'), Cutting Tool Rake Angle (α'), Cutting Thickness (wcut) & Uncut Chip Width (t1) and hit the calculate button. Here is how the Shear stress given cutting force, cut size, uncut chip thickness, friction, rake and shear angles calculation can be explained with given input values -> 3.8E-7 = 150*(cos(0.476474885794362+0.640448569019199-0.150473561460663))/(0.015*0.017*cos(0.640448569019199-0.150473561460663)).