One of directions of basic researches in the field of chemical process engineerings is making new polymeric materials for electronics and aviation technique distinguished by boosted production characteristics.The value of aromatic polyimides (PI) as industrial thermally sound polymers is well-known. However alongside with a complex of valuable properties they have also series of shortages: high temperatures and difficulty of reaching of 100， conversion at ring formation polyamic acids (PAA) and their instability in time, low stability to hydrolysis, poor adhesion to line of substratums etc. all this in some cases restricts or makes to impossible application PI in practice.The complex examinations, spent by us, the solid-phase of thermal cyclyzation PAA and its model junctions have reduced in an establishment of correlation associations between a degree and velocity of ring-formation, thermal stability and reagent resistance, stregth that has allowed to govern process of deriving PI with a necessary level of production characteristics. Use of some components, for example, heterocyclic basic amines-azoles, promotes acceleration and lowering of a temperature band of ring-formation PAA, and also magnification of a degree of ring-formation, that reduces in a considerable raise thermal and chemical resistance, mechanical and dielectric parameters and insulant properties which are not varying at long-lived operation.The modes of deriving of various materials designed on the basis of industrial PAA of a lacquer consisting in introduction of azoles, plasticizing and adhesion components. It is shown, that the coats obtained from modified polymers, have boosted adhesion, high thermal, mechanical, insulant and other properties maintained in requirements of climatic trials.