EUREKA: Physics and Engineering.

The research results of the effect of concentration of injected mineral filler on change in adhesion strength of acrylic adhesive composition to the metal substrate are given in the article. The adhesive composition was prepared based on pre-compounded reaction system: the stabilized monomer – methyl methacrylate and polymer modifier – sterol copolymer with methyl methacrylate with followed filling and polymerization in the presence of a redox system.
It is shown that the mobilization to resource preservation of the adhesive contact at the allowable amount of the filler and the thickness of the adhesive layer is due to the overall contribution of the dispersed phase in the change of the structure and macrophysical properties. Experimental data confirm the obtained dependencies: the adhesive strength of the adhesive from the contact area to steel wire; density, glass transition temperature and the calculated value of the Simcha-Boyer constant of block samples from the amount of the filler; character of reducing dynamic shear modulus of the filled composition during heating.
It is suggested that the decrease in density in a volume of polymer phase of filled system provides a slight decrease in adhesion strength of acrylic adhesive to the substrate.

Zolotov, M. S., Shutenko, L. N., Psurtseva, N. A., Dushyn, V. V. (1985). Experience of adhesive joints in construction. Kharkiv: KhIIKS, 19–98.

Garbuz, S. A. (1998). Anchor connection to acrylic adhesives with high adhesive strength. The use of plastics in construction and municipal services: Materials IV Ukr. Scientific and Engineering. Conf. Kharkiv: KhNAME, 12–14.

Kiselev, V. F., Krylov, O. V. (1980). Electronic phenomena in adsorption and catalysis on semiconductors and dielectrics. Moscow: Science, 234.

Kerber, M. L., Vinogradov, V. M., Golovkin, G. S. et al.; In: Berlin, A. A. (2008). Polymeric composites: structure, properties, technology. St. Petersburg: Profession, 560.

Lipatov, Y. S. (1977). Physical chemistry of filled polymers. Moscow: Chemistry, 304.

Rivat-Lahousse, A. (1956). Les colles industrielles. Paris: Edite par Dunod, 432.

Gorbatkina, Y. A. (1987). The adhesion to the polymer fiber. Moscow: Chemistry, 192.

Koenig, G. (Ed.) (1982). The latest instrumental methods of studying the structure of polymers. Moscow: Mir, 264.

Katz, H. S., Milewski, J. V. (1981). Handbook of fillers and reinforcements for plastics. Translation from English. Moscow: Chemistry, 736.

Simha, R., Boyer, R. F. (1962). On a General Relation Involving the Glass Temperature and Coefficients of Expansion of Polymers. The Journal of Chemical Physics, 37 (5), 1003. doi: 10.1063/1.1733201