Question: In plain turning of a brass rod at a feed of 0.4 mm/rev, what will be the theoretical maximum surface roughness, if (i) the tool is relatively sharp with principal and auxiliary cutting edge angles of 90° and 20°, and (ii) the tool has a considerable nose radius of r = 1.0 mm. [Machining and Machine Tools by A. B. Chattopadhyay]

This question is related to the calculation of theoretical maximum surface roughness (peak-to-valley roughness) in straight turning operation. It has two different parts. In the first part, the cutting tool can be considered as sharp (and thus the nose radius can be neglected). In the second part, the tool has a substantial nose radius that should be taken into consideration for estimation of surface roughness. Before proceeding to the solution, let us first recapitulate the relevant formulas. In general, theoretical peak-to-valley surface roughness in turning can be estimated in two different ways, as shown below. The derivation of these formulas can be found here.

Theoretical surface roughness formulas for turning with sharp tool and tool with nose radius

Step-1: Theoretical maximum surface roughness for sharp tool

For a sharp tool, the theoretical maximum surface roughness (h_max measured in mm) can be estimated using the feed per revolution (s measured in mm/rev), principal cutting edge angle (ϕ measured in degree), and auxiliary cutting edge angle (ϕ₁ measured in degree) of the tool. All three values are clearly mentioned in the question. Thus, the theoretical maximum surface roughness can be calculated as follows.

Feed per revolution (s) = 0.4 mm/rev

Principal cutting edge angle (ϕ) = 90°

Auxiliary cutting edge angle (ϕ₁) = 20°

\[\begin{array}{l}
{h_{\max }} = \frac{s}{{\cot \phi + \cot {\phi _1}}}\\
{h_{\max }} = \frac{{0.4}}{{\cot 90 + \cot 20}}\\
{h_{\max }} = \frac{{0.4}}{{0 + 2.75}}\\
{h_{\max }} = 0.145
\end{array}\]

Therefore, the calculated value of theoretical maximum surface roughness when turning tool is sharp is 0.1456 mm (= 145.6 μm).

Step-2: Theoretical maximum surface roughness for tool with nose radius

A different formula is used to estimate maximum surface roughness in turning carried out with a tool having significant nose radius, regardless of the value of tool cutting edge angles. In this scenario, the theoretical maximum surface roughness (h_max measured in mm) can be estimated using the feed per revolution (s measured in mm/rev) and nose radius (r measured in mm). Both the values are given in question. So roughness can be calculated easily, as shown below.

Feed per revolution (s) = 0.4 mm/rev

Nose radius (r) = 1.0 mm

\[\begin{array}{l}
{h_{\max }} = \frac{{{s^2}}}{{8r}}\\
{h_{\max }} = \frac{{{{\left( {0.4} \right)}^2}}}{{8 \times 1}}\\
{h_{\max }} = 0.02
\end{array}\]

Therefore, the calculated value of theoretical maximum surface roughness when turning tool has significant nose radius is 0.02 mm (= 20 μm). It is also interesting to note down the reduction in surface roughness when the tool is provided with a nose radius. This is one typical benefit of nose radius.