ABSTRACT
Main claims, which are laid to densely cross-linked polymer matrixes used in radioparent high strength fiberglass products are besides high strength properties, maximum isotropy, and stability of radioparency coefficient [1]. Because of traditional mathematical formalism describes strain electromagnetic anisotropyproperty, which inversely as isotropy of radioparency coefficient only for polymers in hyperelastic state [2], when searching for binding agent, which satisfies all the designated requirements, appears a problem of quantity and stability of it is strain electromagnetic anisotropy at service of loaded products temperature ranges rating. Thereupon in this research was submitted mathematical model of nanofragment cross-linked polymers strain electromagnetic anisotropy, in which were covered all physical states of the latter.
