1. Du, F., He, L., Huang, H., Zhou, T., Wu, J.: Analysis and multi-objective optimization for reducing energy consumption and improving surface quality during dry machining of 304 stainless steel. Materials (Basel) 13(21) (2020)

2. Sánchez-Egea, A.J., González-Rojas, H.A., Montilla-Montaña, C.A., Kallewaard-Echeverri, V.: Turning process assisted in situ by short time current pulses. Procedia Eng. 132, 507–512 (2015)

3. Cheng, C., Wang, Z., Hung, W., Bukkapatnam, S.T.S., Komanduri, R.: Ultra-precision machining process dynamics and surface quality monitoring. Procedia Manuf. 1, 607–618 (2015)

4. Pakhomov, D.S., Shatagin, D.A., Trukhin, A.V.: Selection of the optimal option for achieving the required parameters of surface quality when processing parts such as bodies of revolution (part 1). Trends Dev. Sci. Educ. 63(2), 33–39 (2020)

5. Pakhomov, D.S., Shatagin, D.A., Trukhin, A.V.: Selection of the optimal option for achieving the required parameters of surface quality when processing parts such as bodies of rotation (part 2). Trends Dev. Sci. Educ. 64(2), 74–83 (2020)