STRUCTURE AND MECHANICAL CHARACTERISTICS OF COMPOSITES WITH HIGH DAMPING PROPERTIES

E. V. Lomakin; Ломакин Е. В.; S. A. Lurie; Лурье С. А.; L. N. Rabinskiy; Рабинский Л. Н.

doi:10.31857/S2686740023030136

STRUCTURE AND MECHANICAL CHARACTERISTICS OF COMPOSITES WITH HIGH DAMPING PROPERTIES

Autores: Lomakin E.¹^,2, Lurie S.², Rabinskiy L.²
Afiliações:
1. Lomonosov Moscow State University
2. Moscow Aviation Institute (National Research University)
Edição: Volume 510, Nº 1 (2023)
Páginas: 70-76
Seção: МЕХАНИКА
URL: https://journals.rcsi.science/2686-7400/article/view/135949
DOI: https://doi.org/10.31857/S2686740023030136
EDN: https://elibrary.ru/OZDAKJ
ID: 135949

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Resumo

The damping characteristics of hybrid composite materials reinforced with elastic spherical and fibrous inclusions with viscoelastic coatings are studied. It is shown that in composites with particles morphology, the effect of significant increase of dissipation loss can be realized, andᵇ the effective composite properties loss can exceed the dissipation loss of viscoelastic coatings more than twenty times. The analytical estimations for optimal parameters of hybrid composite materials are proposed. The influence of possible imperfections in composite structure on their effective dissipation properties are analyzed.

Palavras-chave

discrete and fibrous composites, viscoelastic coating, loss modulus, optimal structures

Bibliografia

Finegan I., Gibson R. Recent research on enhancement of damping in polymer composites // Compos. Struct. 1999. V. 44. P. 89–98.
Chandra R., Singh S., Gupta K. Damping studies in fiber-reinforced composites – a review // Compos. Struct. 1999. V. 46. P. 41–51.
Remillit C. Damping mechanism of polymers filled with elastic particles // J. Mech. Mater. 2007. V. 39. P. 525–537.
Meaud J., Sain T., Hulbert G.M., Waas A.M. Analysis and optimal design of layered composites with high stiffness and high damping // Int. J. Solids Structures. 2013. V. 50. P. 1342–1353.
Lakes R.S. High damping composite material. Effect of structural hierarchy // J. Compos. Mater. 2003. V. 36(3). P. 287–297.
Berthelot J.M., Assarar M., Sefrani Y., Mahi A.E. Damping of composite materials and structures // Compos. Struct. 2008. V. 85. P. 189–204.
Yu L., Ma Y., Zhou C., Xu H. Damping efficiency of the coating structure // Int. J. Solids Structures. 2005. V. 42. P. 3045–3058.
Chandra R., Singh S.P., Gupta K. A study of damping in fiber-reinforced composites // J. Sound Vib. 2003. V. 262. P. 475–496.
Fisher F.T., Brinson L.C. Viscoelastic interphases in polymer-matrix composites: theoretical model and finite element analysis // Compos. Sci. Technol. 2001. V. 61. P. 731–748.
Wei P.J., Huang Z.P. Dynamic effective properties of the particle reinforced composites with viscoelastic interphase // Int. J. Solids Structures. 2004. V. 41. P. 6993–7007.
Gusev A.A., Lurie S.A. Loss amplification effect in multiphase materials with viscoelastic interfaces // Macromolecules. 2009. V. 42 (14). P. 5372–5377.
Sain T., Meaud J., Hulbert G., Arruda E.M., Waas A.M. Simultaneously high stiffness and damping in a class of wavy layered composites // Compos. Struct. 2013. V. 101. P. 104–110.
Christensen R.M., Lo K.H. Solutions for effective shear properties in three phase sphere and cylinder models // J. Mech. Phys. Solids. 1979. V. 27 (4). P. 315–330.
Папкович П.Ф. Теория упругости. М., Л.: Оборонгиз, 1939. 640 с.