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Polymer Science, Series D

Erschienen in:

01.10.2018

Microstructural and Fractographic Analysis of Adhesive Compound Based on VK-27 Epoxy Resin and VK-25 Phenol Resin Adhesives

verfasst von: A. I. Gulyaev, A. P. Petrova, D. V. Zaitsev, A. N. Raevskikh

Erschienen in: Polymer Science, Series D | Ausgabe 4/2018

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Abstract

The present work is devoted to the microstructural study of D16-AT aluminum alloy-based adhesive compound made of VK-27 adhesive with a sublayer of cured VK-25 phenol resin adhesive. The microstructure of adhesive layers is found to be heterogeneous at several scale levels. The effect of the microstructure of adhesive layers on the characteristics of their deformation and failure processes is elucidated. An exfoliation test reveals that adhesive compound fractures occur predominately at the boundary between a phenol resin sublayer and an epoxy resin adhesive layer, and the shear test induces the propagation of cracks through the epoxy resin adhesive layer.

Vorheriger Artikel The Theoretical Study of Kinetics of NdCl3 · nROH Catalytic Complex Formation for the Process of Obtaining a Low-Molecular Polyisoprene as the Component of Vulcanizing Sealant

Nächster Artikel Heat-Resistant Polymers and Composites on the Basis of Epoxy–Isocyanate Binding Agents

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

E. N. Kablov, L. V. Chursova, N. F. Lukina, K. E. Kutse-vich, E. V. Rubtsova, and A. P. Petrova, “A study of epoxide–polysulfone polymer systems for high-strength adhesives of aviation purpose,” Polym. Sci., Ser D 10 (3), 225–229 (2017).

A. P. Petrova, N. F. Lukina, L. A. Dement’eva, T. Yu. Tyumeneva, I. A. Avdonina, and N. S. Zhadova, “Adhesives for aviation equipment,” Russ. J. Gen. Chem. 81 (5), 1014–1021 (2011).CrossRef

N. F. Lukina, A. P. Petrova, R. R. Mukhametov, and A. S. Kogtenkov, “New developments in the field of adhesives for aviation use,” Aviats. Mater. Tekhnol., Suppl., 452–459 (2017). doi 10.18577/2071-9140-2017-0-S-452-459

A. P. Petrova, I. A. Sharova, and V. V. Kulikov, “Influence of a subcoat of phenolic-rubber glue VK-25 on the properties of epoxy glue VK-9,” Klei, Germetiki, Tekhnol., No. 2, 15–18 (2016).

I. A. Sharova, V. V. Kulikov, A. P. Petrova, and O. V. Shuklina, “Influence of a sublayer of phenol-rubber adhesives on the properties of epoxy glue of cold curing VK-27 and its modifications during the repair of aviation equipment,” Klei, Germetiki, Tekhnol., No. 10, 18–21 (2016).

V. V. Kulikov, V. M. Aleksashin, N. V. Antyufeeva, A. P. Petrova, and I. A. Sharova, “Investigation of the curing process of epoxy glue VK-27 on the surface of the phenol-rubber glued undercoat VK-25,” Klei, Germetiki, Tekhnol., No. 4, 2–5 (2017).

E. Kinloch, Adhesion and Adhesives: Science and Technology (Chapman & Hall, 1987).CrossRef

Fatigue and Fracture of Adhesively-Bonded Composite Joints: Behaviour, Simulation and Modelling, Ed. by A. P. Vassilopoulos (Woodhead Publishing, Cambridge, 2015).

10.

A. I. Gulyaev, N. O. Yakovlev, V. D. Krylov, and O. A. Lashov, “Application of fractographic analysis in the study of interlayer destruction of PCM,” Aviats. Mater. Tekhnol., No. 3, 65–74 (2017). doi 10.18577/9140-2071-2017-0-3-65-73

11.

M. A. Shtremel, Destruction, Vol. 1: Destruction of Materials (Izd. dom MISiS, Moscow, 2014) [in Russian].

12.

N. S. Perov and A. I. Gulyaev, “On the need to take into account the evolution of the structure of polymer composite materials with a microheterogeneous matrix when predicting their service life,” Aviats. Mater. Tekhnol., No. 1, 75–85 (2017). doi 10.18577/2071-9140-2017-0-1-75-85

13.

V. G. Zheleznyak and L. V. Chursova, “Modification of binders and matrices on their basis for the purpose of increasing fracture toughness,” Aviats. Mater. Tekhnol., No. 1, 47–50 (2014). doi 10.18577/2071-9140-2014-0-1-47-50

14.

A. I. Gulyaev, P. L. Zhuravleva, E. V. Filonova, and N. V. Antyufeeva, “Influence of the hardener of catalytic action on the morphology of the microstructure of epoxy carbon plastics,” Materialovedenie, No. 5, 41–46 (2015).

15.

N. S. Perov, E. Yu. Chutskova, A. I. Gulyaev, and D. V. Abramov, “Evolution of the structure of the polymer matrix in carbon plastic on the basis of polycyanurate and polyarylsulfone in accelerated climatic tests,” Materialovedenie, No. 4, 14–20 (2016).

16.

A. Bahrami, X. Morelle, L. D. H. Minh, et al., “Curing dependent spatial heterogeneity of mechanical response in epoxy resins revealed by atomic force microscopy,” Polymer 68, 1–10 (2015).CrossRef

17.

S. Xu, X. Song, and Y. Cai, “Mechanical properties and morphologies of carboxyl-terminated butadiene acrylonitrile liquid rubber/epoxy blends compatibilized by pre-crosslinking,” Materials 9 (8), 1–12 (2016).

18.

H.-S. Zhou, X.-X. Song, and S.-A. Xu, “Mechanical and thermal properties of novel rubber-toughened epoxy blend prepared by in situ pre-crosslinking,” J. Appl. Polym. Sci. 131 (22), 1–7 (2014).CrossRef

19.

E. N. Kablov, “Innovations of the All-Russian Institute of Aviation Materials (VIAM) as part of implementing the Strategic Directions of Development of Materials and Technologies of Their Processing for the Period up to 2030,” Aviats. Mater. Tekhnol., No. 1, 3–33 (2015). doi 10.18577/2071-9140-2015-0-1-3-33

Titel: Microstructural and Fractographic Analysis of Adhesive Compound Based on VK-27 Epoxy Resin and VK-25 Phenol Resin Adhesives
verfasst von: A. I. Gulyaev
A. P. Petrova
D. V. Zaitsev
A. N. Raevskikh
Publikationsdatum: 01.10.2018
Verlag: Pleiades Publishing
Erschienen in: Polymer Science, Series D / Ausgabe 4/2018
Print ISSN: 1995-4212
Elektronische ISSN: 1995-4220
DOI: https://doi.org/10.1134/S199542121804007X

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