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Polymer Science, Series D

Published in:

01-12-2023

Main Components Composing Domestic Epoxy Glues (Review). Part I

Authors: A. P. Petrova, A. Yu. Isaev, O. I. Smirnov, A. S. Emel’yanov

Published in: Polymer Science, Series D | Issue 4/2023

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Abstract

Properties characterizing the main components that compose epoxy adhesives, namely epoxy oligomers, hardeners, and curing catalysts are considered. The effect of each of these components exerted on the properties of adhesives and the optimal content of each component are presented. The type of reactions occurring in the course of curing of glues with the use of different hardeners is shown. Modifying additives for epoxy oligomers and their effect on the properties of adhesive joints are presented.

next article Main Components of Domestic Epoxy Adhesives (Review). Part II. Plasticizers and Elasticizers for Epoxy Adhesives

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A. P. Petrova, “The main components of adhesives and their contribution to the properties of adhesive joints. Part 1,” Klei. Germetiki. Tekhnol., No. 7, 37–48 (2016).

A. P. Petrova, “The main components of adhesives and their contribution to the properties of adhesive joints. Part 2,” Klei. Germetiki. Tekhnol., No. 8, 34–43 (2016).

D. A. Kardashov, Structural Adhesives (Khimiya, Moscow, 1980) [in Russian].

A. D. Eselev and V. A. Bobylev, “Raw material base for adhesives and paints and varnishes,” Klei. Germetiki. Tekhnol., No. 3, 11–14 (2005).

E. N. Kablov, V. T. Minakov, and L. I. Anikhovskaya, “Adhesives and materials based on them for the repair of aircraft structures,” Aviats. Mater. Tekhnol., No. 1, 61–65 (2002).

A. P. Petrova and G. V. Malysheva, Adhesives, Adhesive Binders and Adhesive Prepregs: Textbook, Ed. by E. N. Kablov (VIAM, Moscow, 2017) [in Russian].

L. V. Chursova, N. N. Panina, T. A. Grebeneva, and I. Yu. Kutergina, Epoxy Resins, Hardeners, Modifiers and Binders Based On Them (Professiya, St. Petersburg, 2020) [in Russian].

J. J. Villenave, Assemblage par Collage (Malakoff-Dunod, 2005; Tekhnosfera, 2007).

T. V. Lapitskaya and V. A. Lapitsky, “Epoxy materials,” Kompozit. Mir, No. 4, 16–17 (2006).

10.

V. A. Bobylev, “Modern production of epoxy resins. Diane epoxy resins,” Kompozit. Mir, No. 3, 14–17 (2006).

11.

A. Astakhov and L. I. Veitenko, “Adhesives and compounds based on modified epoxy resins,” Klei. Germetiki. Tekhnol., No. 2, 12–15 (2005).

12.

OST 6-06-5100–98. Modified Polymer Adhesives.

13.

V. A. Bobylev, “Special epoxy resins for adhesives and sealants,” Klei. Germetiki. Tekhnol., No. 5, 8–11 (2005).

14.

A. P. Petrova, A. A. Donskoy, A. E. Chalykh, and A. A. Shcherbina, Adhesive Materials. Sealants (Professional, St. Petersburg, 2008) [in Russian].

15.

A. P. Petrova, A. Yu. Isaev, A. S. Emelyanov, and L. I. Bocharova, “Ways to reduce the flammability of adhesive materials,” Klei. Germetiki. Tekhnol., No. 10, 2–7 (2022).

16.

H. Lee and K. Neville, Handbook of Epoxy Resins (McGraw- Hill, New York, 1967; Energiya, Moscow, 1973).

17.

V. F. Stroganov and I. V. Stroganov, Epoxy Polymers Based on Adamantane: Synthesis, Structure, Properties: Monograph (Kazan Gos. Arkhitekt.-Stroit. Univ., Kazan, 2014) [in Russian].

18.

A. K. Shiryaev, I. K. Moiseev, and V. F. Stroganov, “Adamantane-containing epoxy compounds and polymers based on them (review),” Plast. Massy, No. 12, 35–37 (1987).

19.

A. E. Batog, T. V. Savenko, and I. P. Petko, Aliphatic-Acyclic Epoxides: Synthesis, Properties of Polymer and Composite Materials Based on Them. Production and Processing of Plastics. Overview Information (NIITEKHIM, Moscow, 1991) [in Russian].

20.

D. A. Aronovich, V. P. Varlamov, V. A. Voitovich, et al., Bonding in Mechanical Engineering. Directory, Vol. 1, Ed. by G. V. Malysheva (Nauka Tekhnol., 2005) [in Russian].

21.

S. A. Ponomarenko, N. N. Panina, T. A. Grebeneva, and Ya. M. Gurevich, “Application of epoxy resins in the production of composite materials and quality control,” Klei. Germetiki. Tekhnol., No. 6, 39–46 (2016).

22.

Z. A. Kochnova, E. S. Zhavoronok, and A. E. Chalykh, Epoxy Resins and Hardeners: Industrial Products (Peint-Media, Moscow, 2014) [in Russian].

23.

A. D. Eselev and V. A. Bobylev, “Hardeners for adhesives based on epoxy resins,” Klei. Germetiki. Tekhnol., No. 4, 2–8 (2005).

24.

V. A. Bobylev, “Hardeners for epoxy resins,” Kompozit. Mir, No. 4, 20–24 (2006).

25.

A. V. Pocius, Adhesion and Adhesives Technology (Science Direct, 2021; St. Petersburg: Profession, 2007).

26.

L. V. Chursova, A. N. Babin, T. A. Grebeneva, et al., “Amine hardener based on 4,4'-methylenevisanilines for epoxy binders,” Klei. Germetiki., No. 8, 8–14 (2016).

27.

A. I. Tkachuk, L. V. Chursova, M. A. Kim, et al., “Diaminodifenilsul’fon: preparation, application, prospects,” Vse Mater. Entsiklopedicheskii Spravochnik, No. 10, 30–41 (2013).

28.

New and conventional epoxy materials for the manufacture and repair of composite products. www.epital.ru (Accessed May 4, 2022).

29.

A. G. Zagora, “The use of dicyandiamide in the composition of epoxy adhesives, binders and PCMs based on them (review),” Klei. Germetiki. Technol., No. 4, 37–43 (2020).

30.

V. F. Stroganov and I. V. Stroganov, “Fast-curing low-viscosity epoxy compositions for impregnation and gluing of electrical products,” Klei. Germetiki. Technol., No. 4, 14–19 (2020).

31.

L. V. Chursova, A. I. Tkachuk, N. N. Panina, et al., “Study of the curing mechanism of the dicyandiamide-epoxy oligomer system in the presence of unsymmetrical urea,” Klei. Germetiki. Technol., No. 8. 2–12 (2014).

32.

A. I. Tkachuk, L. V. Chursova, N. N. Panina, et al., “Influence of the composition of the complex catalytic curing system dicyandiamide-unsymmetrical urea Influence of the composition of the complex catalytic curing system dicyandiamide-unsymmetrical urea,” Klei. Germetiki. Technol., No. 11, 2–8 (2014).

33.

G. V. Malysheva, T. A. Guzeva, D. V. Grashchenkov, and A. E. Raskutin, “Influence of heating technology on the duration of the curing process of polymer composite materials.” Trudy VIAM, No. 8, 23–27(2018). https://doi.org/10.18577/2307-6046-2018-0-8-23-27

34.

L. V. Chursova, A. I. Tkachuk, N. N. Panina, et al., “Study of the curing of the dicyandiamide-epoxy oligomer system in the presence of unsymmetrical urea using pulsed NMR method,” Klei. Germetiki. Technol., No. 3, 35–39 (2015)

35.

Z. A. Kochnova, E. S. Zhavoronkov, and A. E. Chalykh, Epoxy Resins and Hardeners: Industrial Products (Peint-Media, Moscow, 2014) [in Russian].

36.

Yu. S. Kochergin, T. A. Kulik, A. F. Pryadko, et al., “Properties of epoxy polymers cured with visimidazoline sebacic acid,” Plast. Massy., No. 12, 15–17 (1984).

37.

L. A. Prokopova and E. Yu. Golovina, “On the stability of the technological properties of epoxy-diane resins after the end of the warranty period,” Trudy VIAM, No. 1, 13–20 (2019). https://doi.org/10.18577/2307-6046-2019-0-1-13-20

38.

M. A. Khaskov and E. V. Safronov, “Modeling of curing processes of thermosetting matrices using the example of a complex-profile sample,” Trudy VIAM, No. 12, 46–54 (2019). https://doi.org/10.18577/2307-6046-2019-0-12-46-54

39.

D. A. Aronovich, “Review of modern adhesive materials that work in a wide temperature range. Epoxy adhesives. Part 1,” Klei. Germetiki. Technol., No. 3, 35–48 (2022).

40.

D. A. Aronovich, “Review of modern adhesive materials that work in a wide temperature range. Epoxy adhesives. Part 2,” Klei. Germetiki. Technol., No. 4, 17–27 (2022).

41.

D. D. Naydenov, M. A. Khaskov, and A. P. Petrova, “Construction of a diagram of isothermal transformations of thermosetting polymers using the example of an adhesive matrix,” Trudy VIAM, No. 1, 5 (2020). https://doi.org/10.18577/2307-6046-2020-0-1-47-57

42.

M. A. Khaskov, “Using thermal analysis methods to construct temperature-time-transformation diagrams of thermosetting polymers,” Vysokomol. Soed., Ser. B 59, 37–48 (2017).

43.

V. M. Aleksashin, N. V. Antyufeeva, and V. A. Bol’shakov, “Experimental study of the relationship between calorimetric and rheological conversion when establishing an epoxy binder in adhesive rheology,” Plast. Massy., Nos. 9–10, 29–32 (2018).

Title: Main Components Composing Domestic Epoxy Glues (Review). Part I
Authors: A. P. Petrova
A. Yu. Isaev
O. I. Smirnov
A. S. Emel’yanov
Publication date: 01-12-2023
Publisher: Pleiades Publishing
Published in: Polymer Science, Series D / Issue 4/2023
Print ISSN: 1995-4212
Electronic ISSN: 1995-4220
DOI: https://doi.org/10.1134/S1995421223040251

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