References
- Leontev, N.V. (2006): Application of the ANSYS system to solving modal and harmonic analysis problems. Nizhniy Novgorod Government University: Nizhniy Novgorod, 101 p.
- Laxalde, D., Thouverez, F., Sinou, J.J., Lombard, J.P., Baumhauer, S. (2007): Mistuning identification and model updating of an industrial blisk. International Journal of Rotating Machinery, vol. 2007, pp. 1–10, DOI: 10.1155/2007/17289.
- Grinev, M.A., Anoshkin, A.N., Pisarev, P.V., Shipunov, G.S., Nikhamkin, M.Sh, Balakirev, A.A., Konev, I.P., Golovkin, A.A. (2016): Calculation and experimental studies of the natural frequencies and vibration modes of the blade of a rectifying apparatus made from polymer composite materials. PNRPU Mechanics Bulletin, 4, pp. 106–119.
- Staszewkij, W., Boller, C., Tonlinson, G. (2004): Health monitoring of aerospace structures. John Wiley & Sons: West Sussex.
- Blanas, P., Das-Gupta, D.K. (2000): Composite piezoelectric materials for health monitoring of composite structures. In: Materials Research Society Symposium - Proceedings, Boston, Uchino, K., Ito, Y. (ed.). Cambridge University Press: Pennsylvania, pp. 45–50.
- Kassapoglou, C. (2012): Predicting the structural performance of composite structures under cyclic loading. Ph.D. Thesis. Harvard University, Faculty of Aerospace Engineering, Department of Aerospace Structures and Computational Mechanics: Cambridge, 140 p.
- Karabutov, A.A., Murashov, V.V., Podymova, N.B., Oraevsky, A.A. (1998): Nondestructive characterization of layered composite materials with a laser optoacoustic sensor. In: Proceedings of Society of Photo-Optical Instrumentation Engineers, Doctor, S.R., Nove, C.A., Daaklini, G.Y. (eds.). Society of Photo Optical, pp. 103–111.
- Kolodii, B.I., Lyaschuk, O.B. (1995): Direct and inverse problems of electromagnetic diagnostics of flat-laminated composite materials with the use of a rectangular waveguide. Materials Science, 30(2), pp. 173–181.
- Sokolova, O., Carradó, A., Palkowski, H. (2010): Production of customized high-strength hybrid sandwich structures. Advanced Materials Research, 137, pp. 81–128.
- Sokolova, O. (2012): Study of metal/polymer/metal hybrid sandwich composites for the automotive industry. Papierflieger, 160 p.
- Harhash, M., Carradò, A., Palkowski, H. (2016): Deep- and Stretch-Forming of Steel/Polymer/Steel Laminates. In: 2. International Conference. “Euro Hybrid Materials & Structures”, Hausmann, J., Siebert, M. (eds.). p. 69–74.
- Harhash, M., Carradò, A., Palkowski, H. (2016). Forming Potential of Low-Density Laminates. In: Proceedings of Euro Hybrid Materials and Structures, Hausmann, J.M., Siebert, M. (eds.). DGM: Stade, pp. 53–60.
- Harhash, M., Palkowski, H., Carrado, A. (2017): Forming behaviour of multilayer metal/polymer/metal systems. Technische Universität Clausthal: Clausthal, 186 p.
- Heylen, W., Lamens, S., Sas, P. (2003): Modal ànalyses. Theory and testing. Katholieke Universiteit Leuven: Leuven, 325 p.
- Vibration measurements of the aerospace industry [online]. Polytec, renewed 1/01/2020 [cited 1/15/2020]. Available on: http://www.polytec.com.
- Inozemtsev, A.A., Nikhamkin, M.Sh., Voronov, L.V., Gladkiy, I.L., Golovkin, A. Yu., Bolotov, B.P. (2010): Experimental and calculated modal analysis of fan blades of hollow structure. Aviatsionnaya promyshlennost, 3, pp. 8–11.
- Grinev, M.A., Anoshkin, A.N., Pisarev, P.V., Zuyko, V.Yu., Shipunov, G.S. (2015): Computer modeling of the mechanical behavior of a composite blade of an aircraft engine straightener. PNRPU Mechanics Bulletin, 3, pp. 38–51.
- Molchanov, D.S., Makaryants, G.M., Safin, A.I., (2017): Defect-caused alteration of a composite unit modal parameters. Measurement: Journal of the International Measurement Confederatio, 95, pp. 383–388, DOI: 10.1016/j.measurement.2016.10.011.
- Molchanov, D., Safin, A., Luhyna, N., (2016): Damage monitoring of aircraft structures made of composite materials using wavelet transforms. IOP Conference Series: Materials Science and Engineering, 153(1), pp. 1–9, DOI:10.1088/1757-899X/153/1/01.2016.
- Daubechies, I. (1992): Ten lectures on wavelets. Mathematics: Philadelphia, 341 p.
- Swiderski, W., Szudrowicz, M. (2014): Experimental investigations of defect sizing in composite materials by ir thermography methods. In: Proceedings of the 16th European Conference On Composite Materials, European Conference on Composite Materials, pp. 1–8.
- Swiderski, W. (2003): Lock-in thermography to rapid evaluation of destruction area in composite materials used in military applications. In: Proceedings of SPIE - The International Society for Optical Engineering, Tobin, Jr.K.W., Meriaudeau, F. (eds.). Society for Optical Engineering: Gatlinburg, pp. 506–517.