1. Krymov, V.V., Eliseev, Yu.S., and Zudin, K.I., Proizvodstvo lopatok gazoturbinnykh dvigatelei (Production of Gas Turbine Engine Blades), Moscow: Mashinostroenie, 2002.

2. Boguslaev, V.A., Muravchenko, F.M., Zhemanyuk, P.D, Kolesnikov, V.I., Yatsenko, V.K., Kachan, A.Ya., Tsivirko, E.I., Orlov, M.R., Zamkovoi, V.E., Mozgovoi, V.F., and Rubel’, O.V., Tekhnologicheskoe obespechenie ekspluatatsionnykh kharakteristik detalei GTD (Technological Maintenance of Operational Characteristics of Gas Turbine Engine Parts), Ch. 1: Lopatki kompressora i ventilyatora (Compressor and Fan Blades), Zaporozh’e: OAO Motor SICh, 2003.

3. Demin, F.I., Pronichev, N.D., and Shitarev, I.L., Tekhnologiya izgotovleniya osnovnykh detalei gazoturbinnykh dvigatelei (Technology for Production of Basic Parts of Gas Turbine Engines), Samara: SGAU, 2012, 2nd ed.

4. Xiaoqi, C., Zhiming, G., and Han, H., Development of robotic system for 3D profile grinding and polishing, SIMTech Technical Report AT/00/012/AMP, 2000.

5. Huang, H., Gong, Z.M., Chen, X.Q., and Zhou, L., Robotic grinding and polishing for turbine-vane overhaul, J. Mater. Process. Technol., 2002, vol. 127, no. 2, pp. 140–145.  https://doi.org/10.1016/S0924-0136(02)00114-0