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Published in: Mechanics of Composite Materials 3/2022

18-07-2022

Generalized Durability Models and their Application to Solving Problems on Predicting the Defining Characteristics of Composites

Authors: E. L. Gusev, V. N. Bakulin

Published in: Mechanics of Composite Materials | Issue 3/2022

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Abstract

The promising ways to predict the durability of polymer composites under the influence of extreme factors of the external environment and operational loads are investigated. The possibilities of effective predicting the defining characteristics (the residual life, strength, reliability, and durability) of composites are studied based on the information received in the first years of their operation. The development of generalized durability models of composites under extreme conditions is based on the main provisions of the modern molecular kinetic theory (MKT). This is due to the fact that chemical transformations in composites can occur both at intermolecular and intramolecular levels. On the basis of the modern MKT, the issue of matching the defining parameters of mathematical models calculated by solving prediction problems within the framework of formulated refined variational statements taking into account the results of experimental measurements at the macrolevel with the corresponding defining parameters of physical models describing molecular interactions at the microlevel is investigated. Results of computational experiments are presented.

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Literature
1.
go back to reference Yu. S. Urzhumtsev, Prediction of the Long-Term Resistance of Polymeric Materials [in Russian], M., Nauka, (1982). Yu. S. Urzhumtsev, Prediction of the Long-Term Resistance of Polymeric Materials [in Russian], M., Nauka, (1982).
2.
go back to reference A. I. Reutov, “Prediction of climatic resistance of polymeric materials used in construction,” Vestn. TGASU, No. 2, 127-141 (2009). A. I. Reutov, “Prediction of climatic resistance of polymeric materials used in construction,” Vestn. TGASU, No. 2, 127-141 (2009).
3.
go back to reference M. N. Stepanov and A. V. Zinin, Predicting the Fatigue Resistance Characteristics of Materials and Structural Elements [in Russian], M., Innovation. Mechanical Engineering (2007). M. N. Stepanov and A. V. Zinin, Predicting the Fatigue Resistance Characteristics of Materials and Structural Elements [in Russian], M., Innovation. Mechanical Engineering (2007).
4.
go back to reference V. E. Strizhius, Methods for Assessing the Fatigue Strength of Elements of Composite Aircraft Structures [in Russian], M., Mashinostroenie (2015). V. E. Strizhius, Methods for Assessing the Fatigue Strength of Elements of Composite Aircraft Structures [in Russian], M., Mashinostroenie (2015).
5.
go back to reference A. B. Bondarev, “Influence of the “polymer-filler” ratio on the cyclic durability of PCMs,” Bezopasnost’ Stroitelnogo Fonda Rossii. Problems and Solutions, Kursk: RAASN, 233-237 (2011). A. B. Bondarev, “Influence of the “polymer-filler” ratio on the cyclic durability of PCMs,” Bezopasnost’ Stroitelnogo Fonda Rossii. Problems and Solutions, Kursk: RAASN, 233-237 (2011).
6.
go back to reference A. Ya. Bashkarev, V. I. Vettegren, and M. A. Suslov, Durability of Polymer Composites [in Russian], St. Petersburg, SPPTU (2016). A. Ya. Bashkarev, V. I. Vettegren, and M. A. Suslov, Durability of Polymer Composites [in Russian], St. Petersburg, SPPTU (2016).
7.
go back to reference S. A. Lurie, Yu. O. Solyaev, D. Q. Nguen, et al., “Experimental investigation modeling the impact of thermocycling on mechanical properties of carbon fiber-reinforced plastic,” Composites: Mech., Comput., Appl. An int. J., 3, No. 7, 1-13 (2015). S. A. Lurie, Yu. O. Solyaev, D. Q. Nguen, et al., “Experimental investigation modeling the impact of thermocycling on mechanical properties of carbon fiber-reinforced plastic,” Composites: Mech., Comput., Appl. An int. J., 3, No. 7, 1-13 (2015).
8.
go back to reference A. M. Dumansky and L. P. Tairova, “Time-dependent behavior of carbon fiber-reinforced lam-inates,” Proc. 2nd Int. Conf. on Advanced Composite Materials and Technologies for Aerospace Applications, Wrexham, North Wales, UK, 75-79 (2012). A. M. Dumansky and L. P. Tairova, “Time-dependent behavior of carbon fiber-reinforced lam-inates,” Proc. 2nd Int. Conf. on Advanced Composite Materials and Technologies for Aerospace Applications, Wrexham, North Wales, UK, 75-79 (2012).
9.
go back to reference A. I. Reutov, Predicting the Reliability of Building Products from Polymeric Materials [in Russian], M., RIF Stroit. Mater. (2007). A. I. Reutov, Predicting the Reliability of Building Products from Polymeric Materials [in Russian], M., RIF Stroit. Mater. (2007).
10.
go back to reference L. B. Potapova and S. B. Ratner, “Prediction of the durability of brittle polymers based on the results of short-term strength tests,” Mech. Compos. Mater., No. 4, 742-745 (1990). L. B. Potapova and S. B. Ratner, “Prediction of the durability of brittle polymers based on the results of short-term strength tests,” Mech. Compos. Mater., No. 4, 742-745 (1990).
11.
go back to reference V. N. Bulmanis and O. V. Startsev, Prediction of Changes in the Strength of Polymer Fiber Composites as a Result of Climatic Influences [in Russian], Preprint, Yakutsk, YaNTs SO RAN (1988). V. N. Bulmanis and O. V. Startsev, Prediction of Changes in the Strength of Polymer Fiber Composites as a Result of Climatic Influences [in Russian], Preprint, Yakutsk, YaNTs SO RAN (1988).
12.
go back to reference Yu. S. Urzhumtsev and I. N. Cherskii, “Scientific foundations of engineering climatology of polymer and composite materials,” Mech. Compos. Mater. No. 4, 708-714 (1985). Yu. S. Urzhumtsev and I. N. Cherskii, “Scientific foundations of engineering climatology of polymer and composite materials,” Mech. Compos. Mater. No. 4, 708-714 (1985).
13.
go back to reference V. N. Bulmanis, V. A. Yartsev, and V. V. Krivonos, “Performance of structures made of polymer composites under the influence of static loads and climatic factors,” Mech. Compos. Mater., No. 5, 915-920 (1987). V. N. Bulmanis, V. A. Yartsev, and V. V. Krivonos, “Performance of structures made of polymer composites under the influence of static loads and climatic factors,” Mech. Compos. Mater., No. 5, 915-920 (1987).
14.
go back to reference O. N. Karpukhin, “Determining the service life of a polymer material as a physical and chemical problem,” Usp. Khimii,, No. 8, 1523-1553 (1980). O. N. Karpukhin, “Determining the service life of a polymer material as a physical and chemical problem,” Usp. Khimii,, No. 8, 1523-1553 (1980).
15.
go back to reference I. S. Filatov and R. N. Bochkarev, “Some problems of assessing and predicting the climatic stability of polymeric materials,” Methods for assessing the climatic stability of polymeric materials,” Metodi Otsenki Prognoz. Klimat. Ustoichiv. Polim. Mater., Yakutsk, YaF SO AN SSSR, 11-20 (1986). I. S. Filatov and R. N. Bochkarev, “Some problems of assessing and predicting the climatic stability of polymeric materials,” Methods for assessing the climatic stability of polymeric materials,” Metodi Otsenki Prognoz. Klimat. Ustoichiv. Polim. Mater., Yakutsk, YaF SO AN SSSR, 11-20 (1986).
16.
go back to reference E. L. Gusev and V. N. Bakulin, “Variation formulations of inverse problems in predictions the residual life of composites,” Dokl. Phys., 63, No. 9, 388-392 (2018).CrossRef E. L. Gusev and V. N. Bakulin, “Variation formulations of inverse problems in predictions the residual life of composites,” Dokl. Phys., 63, No. 9, 388-392 (2018).CrossRef
17.
go back to reference E. L. Gusev and V. N. Bakulin, “The use of generalized models in the variational formulation of the prediction tasks defining characteristics of composite materials,” J. Phys.: Conf. Ser. Collection of Materials of the VIII Int. Conf., 1431, 012017 (2020). E. L. Gusev and V. N. Bakulin, “The use of generalized models in the variational formulation of the prediction tasks defining characteristics of composite materials,” J. Phys.: Conf. Ser. Collection of Materials of the VIII Int. Conf., 1431, 012017 (2020).
18.
go back to reference E. L. Gusev, “Using parallel procedures for the searching of the extremum for the decision of the inverse prediction problems of the defining characteristics of the composite materials,” Mater. Phys. Mech., 26, No. 1, 70-72 (2016). E. L. Gusev, “Using parallel procedures for the searching of the extremum for the decision of the inverse prediction problems of the defining characteristics of the composite materials,” Mater. Phys. Mech., 26, No. 1, 70-72 (2016).
19.
go back to reference E. L. Gusev, V. N. Bakulin, and V. D. Chernykh, “Development and application of combined methods to expand the potential for predicting the defining characteristics of composites,” IOP Conference Series: Materials Science and Engineering, 927, 010240 (2020). E. L. Gusev, V. N. Bakulin, and V. D. Chernykh, “Development and application of combined methods to expand the potential for predicting the defining characteristics of composites,” IOP Conference Series: Materials Science and Engineering, 927, 010240 (2020).
Metadata
Title
Generalized Durability Models and their Application to Solving Problems on Predicting the Defining Characteristics of Composites
Authors
E. L. Gusev
V. N. Bakulin
Publication date
18-07-2022
Publisher
Springer US
Published in
Mechanics of Composite Materials / Issue 3/2022
Print ISSN: 0191-5665
Electronic ISSN: 1573-8922
DOI
https://doi.org/10.1007/s11029-022-10034-1

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