Respuesta :
Answer:
The shear plane angle and shear strain are 28.21° and 2.155 respectively.
Explanation:
(a)
Orthogonal cutting is the cutting process in which cutting direction or cutting velocity is perpendicular to the cutting edge of the part surface.
Given:
Rake angle is 12°.
Chip thickness before cut is 0.32 mm.
Chip thickness is 0.65 mm.
Calculation:
Step1
Chip reduction ratio is calculated as follows:
[tex]r=\frac{t}{t_{c}}[/tex]
[tex]r=\frac{0.32}{0.65}[/tex]
r = 0.4923
Step2
Shear angle is calculated as follows:
[tex]tan\phi=\frac{rcos\alpha}{1-rsin\alpha}[/tex]
Here, [tex]\phi[/tex] is shear plane angle, r is chip reduction ratio and [tex]\alpha[/tex] is rake angle.
Substitute all the values in the above equation as follows:
[tex]tan\phi=\frac{rcos\alpha}{1-rsin\alpha}[/tex]
[tex]tan\phi=\frac{0.4923cos12^{\circ}}{1-0.4923sin12^{\circ}}[/tex]
[tex]tan\phi=\frac{0.48155}{0.8976}[/tex]
[tex]\phi=28.21^{\circ}[/tex]
Thus, the shear plane angle is 28.21°.
(b)
Step3
Shears train is calculated as follows:
[tex]\gamma=cot\phi+tan(\phi-\alpha)[/tex]
[tex]\gamma=cot28.21^{\circ}+tan(28.21^{\circ}-12^{\circ})[/tex][tex]\gamma = 2.155[/tex].
Thus, the shear strain rate is 2.155.
