Researches in Mathematics

We show how with the help of nonlinear paired regression, namely cubic regression, having experimental data, it is possible to investigate the relationship of tangential stresses between different layers of a cylindrical part during build-up. Six pairs of dependencies (models) between tangential stresses are considered. For each pair of dependencies, the accuracy of the built model was assessed using the average error of approximation and Fisher's F-criterion, and a comparative analysis was conducted. Despite some contradictions that arose during the evaluation of the models according to various regression parameters it was established that at least four of the six models are optimal and allow to adequately model the process of the formation of the stress-strain state in the details and elements of structures with significantly lower costs even before the stage of manufacturing finished products.

nonlinear paired regression; stress-strain state; mathematical modeling; cubic regression; coefficient of determination; average error of approximation

Pri 74D05, Sec 97M5U, 62J02

Hart E.L., Hudramovich V.S. "Computer simulation of the stress-strain state of plates with reinforced elongate rectangular holes of various orientations", Strength of materials and theory of structures: Scientific-and-technical collected articles, 2022; 108: pp. 77-86. doi:10.32347/2410-2547.2022.108.77-86

Hart E.L., Hudramovich V.S. "Projection-iterative schemes for the implementation of variational-grid methods in the problems of elastoplastic deformation of inhomogeneous thin-walled structures", J. Math. Sci., 2021; 254(1): pp. 21-38. doi:10.1007/s10958-021-05285-7

Hart E.L., Terokhin B.I. "Computer simulation of the stress-strain state of the plate with circular hole and functionally graded inclusion", J. Optim. Diff. Eq. Appl., 2021; 29(1): pp. 42-53. doi:10.15421/142103

Hart E.L., Terokhin B.I. "Computer simulation of the stress-strain state of thin plates and cylindrical shells with a circular hole reinforced by an inclusion from functionally graded material", Strength of materials and theory of structures: Scientific-and-technical collected articles, 2023; 110: pp. 63-80. doi:10.32347/2410-2547.2023.110.63-80

Kolosov O.E. Technologies of composite materials: education. guide, Igor Sikorsky Kyiv Polytechnic Institute. 2018. cutt.ly/FeqwMDTf

Kudryachenko V.V. "Increasing the productivity of means for impregnating fibrous materials with polymer binders by using mechanical vibrations", Scientific news of NTUU KPI, 2002; 1: pp. 61-73.

Kushnir R., Yasinskyy A., Tokovyy Yu., Hart E. "Inverse thermoelastic analysis of a bimaterial cylinder with interfacial friction", Materials, 2021; 14(2657): pp. 1-12. doi:10.3390/ma14102657

Musiyaka V.G. Fundamentals of numerical methods of mechanics, Higher education, 2004.

Quagliano Amado J.C. "Manufacture and testing of lightweight tubes for rocketry and centrifuges", Lightweight Composite Structures in Transport: Design, Manufacturing, Analysis and Performance, 2016; 18: pp. 421-437. doi:10.1016/B978-1-78242-325-6.00017-7

Rudenko V.M. Mathematical statistics: Education manual, Center of educational literature, 2012.

Siasiev A., Dreus A., Horbonos S., Balanenko I., Dziuba S. "The stressed-strained state of a rod at crystallization considering the mutual influence of temperature and mechanical fields", Eastern-European J. Enterp. Tech., 2020; 3(5(105)): pp. 38-49. papers.ssrn.com/sol3/papers.cfm?abstract\_id=3718745

Siasiev A. "Mathematical modelling of manufacturing processes of parts and structural elements by build-up methods", European Science, 2022; 1(12-01): pp. 66-103. doi:10.30890/2709-2313.2022-12-01-002

Siasiev A.V., Siasiev V.O. "Axisymmetric expansion of a viscoelastic cylinder upon heating", Visnyk Dnipropetr. Univ. Ser. Mech., 2001; 4: pp. 184-192.

Syasev A.V., Vesselovskiy V.B., Mamuzych I., Kochubey A.A., Syasev V.A., Klim V.Y. "The nonlinear shaping of the thermomechanical status of two-phases bodies", Materiali in Tehnologije, 2003; 37(3-4): pp. 137-143.

Syasev A., Zelenskaya T. "Lengthwise movement dynamic boundary-value problem for trailing boundary ropes", Metallurgical and Mining Industry, 2015; 3: pp. 283-287.

Table of values of the Fisher criterion (F-criterion), statisticsbyjim.com/hypothesis-testing/f-table

Turchyn V.M. Probability Theory and Mathematical Statistics, IMA-press, 2014.

Veselovskii V.B., Siasiev A.V. "Mathematical modeling and solution of related problems of thermoviscoelasticity for two-phase bodies", Theor. Appl. Mech., 2002; 35: pp. 93-100.

Zadachyn V.M., Konyushenko I.G. Numerical methods: tutorial, S. Kuznets (ed.) HNEU, 2014.

Zagorulko A.V. Numerical methods in mechanics, Sumy State University, 2008.