Answer :
Answer:
The Correct Answer is False.
Explanation:
It is logical that the cutting force increases as the depth of cut increases and rake angle decreases. Deeper cuts remove more material, thus requiring a higher cutting force. As the rake angle, α, decreases, the shear angle, φ , decreases and hence shear energy dissipation and cutting forces increase.
Answer:
True
Explanation:
- The shear plane angle is given by the following formula (Merchant's Equation):
∅ = 45 + α/2 - β/2
Where, α: Rake Angle
β: Friction angle
- It is seen from the relation above that shear plane angle depends on friction angle (β) and rake angle (α).
- The friction angle (β) is related by the friction coefficient (u) with the following relation:
u = tan ( β )
β = arctan (u)
- The expression becomes:
∅ = 45 + α/2 - arctan (u)/2
- Its given that rake angle (α) remains constant, while friction coefficient (u) between the tool and the chip is decreased.
- For the equation to hold true then shear plane angle (∅) must increase.