Mathematical Modeling and Methods of Determination of Functional-Use Relaxation-Recovery Properties of Polymer Textile Materials

Makarov, A. G.; Pereborova, N. V.; Buryak, E. A.; Kozlov, A. A.

doi:10.1007/s10692-020-10168-9

Mathematical Modeling and Methods of Determination of Functional-Use Relaxation-Recovery Properties of Polymer Textile Materials

PAPERS AT THE INTERNATIONAL CONFERENCE “INNOVATIVE DIRECTIONS OF DEVELOPMENT OF SCIENCE ON POLYMER FIBER AND COMPOSITE MATERIALS,” ST. PETERSBURG, 2020.
Published: 26 November 2020

Volume 52, pages 135–140, (2020)
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Fibre Chemistry Aims and scope

A. G. Makarov¹,
N. V. Pereborova¹,
E. A. Buryak¹ &
…
A. A. Kozlov¹

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Mathematical models and methods of determination of functional-use relaxation-recovery properties of textile industry materials having decisive importance for comparative analysis and qualitative sampling of materials having specific properties are reviewed.

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References

A. G. Makarov, Izv. Vuzov. Tekhnol. Text. Prom., No. 2, 12-16 (2000).
A. G. Makarov, Izv. Vuzov. Tekhnol. Text. Prom., No. 2, 13-17 (2002).
A. G. Makarov, N. V. Pereborova, et al., Khim. Volokna, No. 5, 44-47 (2013).
Google Scholar
V. V. Golovina, P. P. Rymkevich, et al., Khim. Volokna, No. 6, 33-40 (2013).
Google Scholar
P. P. Rymkevich, A. A. Romanova, et al., J. Macromol. Sci., Part B: Physics, 52, No. 12s, 1829-1847 ( 2013).
Article CAS Google Scholar
A. G. Makarov, G. Y. Slutsker, and N. V. Drobotun, Techn. Phys., 60, No. 2, 240-245 (2015).
Article CAS Google Scholar
A. G. Makarov, G. Y. Slutsker, et al., Fiz. Tv. Tela, 58, No. 4, 814-820 (2015).
Google Scholar
A. G. Makarov, A. V. Demidov, et al., Khim. Volokna, No. 6, 60-67 (2015).
Google Scholar
A. G. Makarov, N. V. Pereborova, et al., Ibid., 68-72.
A. G. Makarov, N. V. Pereborova, et al.,Izv. Vuzov. Tekhnol. Text. Prom., No. 5 (359), 48-58 (2015).
A. G. Makarov, A. V. Demidov, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 6 (360), 194-205 (2015).
A. G. Makarov, N. V. Pereborova, et al., Khim. Volokna, No. 1, 37-42 (2016).
A. G. Makarov, A. V. Demidov, et al., Khim. Volokna, No. 2, 52-58 (2016).
A. V. Demidov, A. G. Makarov, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 1 (367), 250-258 (2017).
A. G. Makarov, N. V. Pereborova, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 2 (368), 309-313 (2017).
A. G. Makarov, N. V. Pereborova, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 4 (370), 287-292 (2017).
A. G. Makarov, N. V. Pereborova, et al., Khim. Volokna, No. 1, 69-73 (2017).
A. G. Makarov, N. V. Pereborova, et al., Khim. Volokna, No. 2, 59-63 (2017).
A. V. Demidov, A. G. Makarov, et al., Khim. Volokna, No. 4, 46-51 (2017).
N. V. Pereborova, A. V. Demidov, et al., Khim. Volokna, No. 2, 36-39 (2018).
A. G. Makarov, N. V. Pereborova, et al., Khim. Volokna, No. 3, 94-97 (2018).
N. V. Pereborova, A. G. Makarov, et al., Khim. Volokna, No. 4, 54-56 (2018).
A. G. Makarov, N. V. Pereborova, et al., Khim. Volokna, No. 4, 117-120 (2018).
N. V. Pereborova, A. G. Makarov, et al., Khim. Volokna, No. 5, 89-92 (2019).
N. V. Pereborova, A. G. Makarov, et al., Khim. Volokna, No. 6, 3-6 (2018).
Google Scholar
N. V. Pereborova, A. G. Makarov, et al., Khim. Volokna, No. 6, 87-90 (2018).
N. V. Pereborova, A. V. Demidov, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 2 (374), 251-255 (2018).
N. V. Pereborova, A. G. Makarov, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 3 (375), 253-257 (2018).
N. V. Pereborova, A. G. Makarov, et al., Khim. Volokna, No. 5, 68-70 (2019).
N. V. Pereborova, A. G. Makarov, et al., Khim. Volokna, No. 5, 71-73 (2019).
N. V. Pereborova, A. V. Demidov, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 2 (380), 192-198 (2019).
N. V. Pereborova, A. V. Demidov, et al., Izv. Vuzov. Tekhnol. Text. Prom., No. 3 (381), 242-247 (2019).

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This work was financed within the ambit of execution of the state assignment of the Ministry of Science and Higher Education of the Russian Federation, Project No. FSEZ-2020-0005.

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St. Petersburg State University of Industrial Technologies and Design, St Petersburg, Russia
A. G. Makarov, N. V. Pereborova, E. A. Buryak & A. A. Kozlov

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A. G. Makarov
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N. V. Pereborova
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E. A. Buryak
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A. A. Kozlov
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Correspondence to A. G. Makarov.

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Translated from Khimicheskie Volokna, No. 3, pp. 3-7, May-June, 2020

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Makarov, A.G., Pereborova, N.V., Buryak, E.A. et al. Mathematical Modeling and Methods of Determination of Functional-Use Relaxation-Recovery Properties of Polymer Textile Materials. Fibre Chem 52, 135–140 (2020). https://doi.org/10.1007/s10692-020-10168-9

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Published: 26 November 2020
Issue Date: September 2020
DOI: https://doi.org/10.1007/s10692-020-10168-9

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Mathematical Modeling and Methods of Determination of Functional-Use Relaxation-Recovery Properties of Polymer Textile Materials

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Mechanical Properties of Low Density Polyethylene

Statistical analysis of identification of linear viscoelastic models

The mechanical behavior of polylactic acid (PLA) films: fabrication, experiments and modelling

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