Modeling the structure of a continuous fiber filler in the polymer binder

Among the continuous production technology of composites based on thermoplastic polymers of the least energy-intensive pultrusion technology to provide granular molded materials and unidirectional prepregs, as well as in the dual-impregnated (one-step) process profile, winding, and other products. However, in realtime to the present experimental and commercial embodiments of this technology impregnation is carried out at a low speed, wherein the fibrous fillers are used relatively low molding density and specially selected low viscosity polymer melts. Technological bases of high performance pultrusion process of continuous impregnation of fibrous fillers highly viscous melts of thermoplastic polymers of large-scale industrial production developed enough. Meaning rheology optimization process mixtures composites increases sharply when using polymeric binders. This increase is primarily the increase in the technical and economic losses due to sub-optimal decisionmaking, due to high demands for reliability and durability of polymer composites [1]