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This article has been withdrawn as it was published elsewhere and accidentally duplicated. The original article can be seen here: 10.1108/00035599810216858. When citing the article, please cite: Oleg L. Figovsky, Freddy A. Romm, (1998), “Improvement of anti-corrosion protection properties of polymeric materials”, Anti-Corrosion Methods and Materials, Vol. 45 Iss: 3, pp. 167 - 175.

Advanced crack‐resistant coatings based on water dispersion of chlorine‐sulpho‐polyethylene (CSPE, Hypalon^®) vulcanized by Mannich alkalis (MA) water solution were obtained. Application of MA as a CSPE structure component makes it possible to produce a vulcanized net of saturated polymer, and thus to receive ecologically safe impenetrable crack resistant coatings of any substrata (concrete, metal, plastic, etc.). The coatings can be applied in aircraft, automotive, shipbuilding, paint and varnish industries, civil engineering, etc. as a corrosion‐resistant material. The optimal coating composition and its mechanical properties have been studied.

Explores the possibility of preparing elastic and hard ebonite coatings, utilizing the properties of oligobutadienes without ending functional groups. Examines the vulcanization processes leading to formation of rubberizing ebonite coatings on samples of oligobutadienes. Finds that the most effective bonding material for non‐solution compositions is ebonite coatings.

This study considers the problem of preventing the penetration of corrosion‐active components into the protective coating of various materials. It is shown that inhibitors involved into micropores and various coating defects seriously reduce the rate of penetration. The mass‐transfer aspects of the inhibition of acid diffusion into coatings were analyzed. It is shown that the effectiveness of inhibition cannot be easily related to the chemical composition of inhibitors.