Formation of the Structure and Properties of Epoxy-Based Composite Materials

V.A. Gafarova; J. V. Bazrova; L.Z. Teltsova

doi:10.4028/www.scientific.net/MSF.992.336

Paper Titles

Synthesis of Poly(Ethylene 2,5-Furanoate): I. Kinetics of 2,5-Dimethyl Ester of Furandicarboxylic Acid Transesterification
p.311

Studies of Microwave Electromagnetic Field Influence on Adhesion Strength of the “Matrix-Fiber” Contact Zone on the Example of the Elementary Cell of a Certified Polymeric Composite Material
p.317

Studying the Effect of Temperature, Static Load and Nanodimensional Defects on the Mechanical Properties of Polyethylene Film at Uniaxial Extension
p.325

Destruction of Epoxy-Based Composite Materials under the Influence of Impact Load
p.331

Formation of the Structure and Properties of Epoxy-Based Composite Materials
p.336

Improving the Energy Efficiency of Autoclave Equipment by Optimizing the Technology of Manufacturing Parts from Polymer Composite Materials
p.341

Local Repair of Parts from Polymer Composite Material with the Use of Portable Hot Bonder Control Systems
p.347

Investigation of the Effect of Mechanical Activation of Powder Components on the Properties of Polyimide Composites
p.353

About Communication of the Comparative Properties Plasticized PVC Compositions and Quantities of Additives Used
p.359

HomeMaterials Science ForumMaterials Science Forum Vol. 992Formation of the Structure and Properties of...

Formation of the Structure and Properties of Epoxy-Based Composite Materials

Abstract:

Over the past fifteen years, Russian and foreign scientists have conducted a large amount of research in the development and use of composite materials based on epoxy resins, including the ways to restore structural integrity. In the oil and gas industry, composite materials are used for repair works.

You might also be interested in these eBooks

FarEastCon - Materials and Construction II

View Preview

Info:

Periodical:

Materials Science Forum (Volume 992)

Pages:

336-340

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.992.336

Citation:

Cite this paper

Online since:

May 2020

Authors:

V.A. Gafarova*, J. V. Bazrova, L.Z. Teltsova

Keywords:

Composite Material, Epoxy, Structure, Thermal Profile

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] A.G. Voronkov, Epoxy Polymer Solutions for Repair and Protection of Building Objects and Structures, Tambov, (2006).

Google Scholar

[2] D.L. Starokadomsky, E.M. Pahlov, Physical and mechanical properties of epoxypolymer composites with 10-50 WT% of pyrophillite, Composites and nanostructures. 1 (2015) 41-51.

Google Scholar

[3] S. Sprenger, Epoxy resin composites with surface-modified silicon dioxide nanoparticles: a review, J Appl Polym Sci. (2013) 1421–1428.

DOI: 10.1002/app.39208

Google Scholar

[4] А.А. Vasilyeva, M.P. Lebedev, A.K. Kychkin, О.S. Tatarintseva Investigation of physical and mechanical characteristics of epoxy anhydrite binder modified by the Silicate Nanoparticles, Polzunovskii Bulletin. 3 (2013) 289-293.

Google Scholar

[5] A. Zavyalova, T. Brusentseva, L. Vikoulina, S. Barkhadanov, T. Chimytov, V. Syzrantsev, The interaction of silica dioxide nanoparticles with polymers, Nanoindustry. 1 (2013) 32-36.

Google Scholar

[6] T.A. Vaganova, T.A. Brusentseva, A.A. Filippov, E.V. Malykhin, Synthesis and characterization of epoxy-anhydride polymers modified by polyfluoroaromatic oligoimides, Journal of Polymer Research. 11 (2014) 11.

DOI: 10.1007/s10965-014-0588-z

Google Scholar

[7] T.V. Melnikova, O.B. Nazarenko, P.M. Visakh Thermal and mechanical characteristics of polymer composites based on epoxy resin, aluminium nanopowders and boric acid, Journal of Physics: Conference Series. (2015) 163-166.

DOI: 10.1088/1742-6596/671/1/012040

Google Scholar

[8] S. Tekatomi, S. Tchikadzumi, Magnetic liquids, Moscow, (1993).

Google Scholar

[9] P.V. Lebedev-Stepanov, S.P. Molchanov, T.A. Karabout, S.A. Rybak, Self-assembly processes of particles in an evaporating droplet of colloidal solution, Acoustical Physics. 5 (2010) 613-615.

DOI: 10.1134/s106377101005009x

Google Scholar

[10] Yu. Tarasevich, Mechanisms and models of the dehydration self-organization in biological fluids, Phys. Usp. 174 (2004) 779-790.

Google Scholar

[11] N.N. Rozhkova, A.A. Mikhaylina, S.S. Rozhkov, Nanostructures of shungite carbon in nature, dispersions and hybrid materials, Fullerene-containing phases obtained from water dispersions of carbon nanoparticles, Phys. Chem. Journ. 2007, 86-93.

DOI: 10.1134/s0036024407060209

Google Scholar

[10] M.I. Bayazitov, A.N. Vasiliev, V.A. Gafarova, I.R. Kouzeev, D.K. Nikiforova, Formation of features of crystalline bodies in potentially amorphous systems, Higher institutional establishments bulletin, Oil and gas. 5 (2014) 82-85.

Google Scholar