Chemical Fibers with Specific Properties for Industrial Application and Personnel Protection

1. Kudryavtsev, G.I. , Varshavki V. Ya. , Stchetinin, A.M. and Kazakov, M.E. (1992). Reinforced Chemical Fibers for Composites.Moscow, Chimia Publications, 236-236 pp.

2. Perepelkin, K.E. (1991).Fibers and fibrous materials with extreme properties. Theory and practical achievements. Chemical Fibers, 4: 27–32.

3. Perepelkin, K.E. (1992). Fibers and fibrous materials for the reinforcement of composites with extreme characteristics. Mechanics of Composite Materials, 3: 291–306.(Reprinted in USA.MCM.1992, 28, No.3, pp.195–208).

4. Perepelkin, K.E. , Matchalaba, N.N. and Budnitski, G.A. (1999). Armos – the Russian High-Performance Fiber: comparison of other p-aramid fiber types. Chemical Fibers International, 49(3): 211–214.

5. Perepelkin, K.E. and Matchalaba, N.N. (2000). Recent achievements in structural ordering and control of properties of para-aramid fibers.Lecture of 5th International Conference on Frontiers of Polymers and Advanced Materials. Molecular Crystals and Liquid Crystals, 354: 331–346.

6. Matchalaba, N.N. and Perepelkin, K.E. (2001). Aramid fiber development – today and future. In: 1st Central European Conference “Fiber-Grade Polymers, Chemical Fibers and Special Textiles”. Lodz, 03-04.10.2000. Proceedings, Lodz, Institute of Chemical Fibers, Chapter 14, pp. 204–223.

7. Perepelkin, K.E. , Matchalaba, N.N. , Budnitskii, G.A. and Kurileva, N.N. (2000). Para-aramids in textile and composites – high-modulus fibrous materials for reliability and safety guarantee. Bulletin of St-Pb State University of Technology and Design. St-Petersburg 4: 64–83.

8. Perepelkin, K.E. , Matchalaba, N.N. and Kvarachelia, V.A. (2001). Para-aramid yarns: Armos properties at under conditions of use.Comparison with other para-aramids. Chemical Fibers, 2: 22–29.

9. Togilene (1990). Fire- and thermo-resistant hygienic fiber. Prospect of J.-S. Co St-Pb, NIIchimvolokno, 5-5 p.

10. Gelmont, M.M. , Kalashnikov, B.O. , Pozdniakov, V.M. and Efros, L.S. (1990). Properties of new thermo-resistant, fire-protected, hygienic fibers and yarn Togilene on the base of aromatic co-polyamido-benzimidazole. The International Conference on Low Inflammable Polymeric Materials, Alma-Ata, 25–27 September, Vol.2, pp.74–76.

11. Pozdniakov, V.M. , Perepelkin, K.E. , Baranova, S.A. , Koitova, Zh.Yu. and Vakhrushev, V.I. (1997). A new heat-resistant, hard to ignite fiber “Togilen” with high hygroscopicity and dyeability. In: Moryganov, A.P. (Ed.), Textile Chemistry Theory, Technology, Equipment.New York: Nova Science Publication 387, pp.3–10.

12. Matchalaba, N.N. , Andriyk, I.A. , Perepelkin, K.E. , Budnitsky, G.A. and Volokhina, A.V. (2001). Aramid fibers and yarns of J-S Company “Tverchimvolokno” (Russia): production, properties, ways of development. In: International Conference “Technique for Chemical Fibers”. Tchernigov (Ukraine). 21–25 May, 2001. Proceedings of Tchernigov, J-S Co “Chimtextilmach”, pp. 214–224.

13. Kudryavtsev, G.I. and Stchetinin, A.M. (1978). Thermo-resistant fibers. In: Konkin, A.A. (Ed.), Thermo-Heat- and Non-inflammable Fibers.M.Chimia Publications, pp.7–216.

14. Sokolov, L.B. , Gerasimov, V.D. , Savinov, V.M. and Belyakov, V.K. (1975). Thermal resistant aromatic polyamides.Moscow: Chimia Publications, 256-256 p.

15. Astakhin, V.V. , Trezvov, V.V. and Sukhanova, V.V. (1986). Electro-insulation varnishes, films, fibers.Moscow: Chimia Publications, 160-160 p.

16. Bessonov, M.P. , Koton, M.M. , Kudryavtsev, V.V. and Laius, L.A. (1983). Polyimides – type of thermal resistant polymers.Leningrad: Nauka Publications, 328-328 p.

17. Perepelkin, K.E. (Ed.) (1980). Production and Application of Chemical Fibers with Specific Properties.Mitistchi: VNIIV Publications, 110-110 p.

18. Natchinkin, O.I . and Kuznetsova, G.B. (Eds.) (1990). Chemical Fibers, Fibrous and Composite Materials for Technical Application.Mitistchi: VNIIV Publications, 292-292 p.

19. Perepelkin, K.E. (1988–1998).Carbon fibers.Chemosorption fibers.Enzymecontaining fibers.Fluorine-fibers.Ion-exchange fibers.Non-inflammable fibers. Thermal-resistant fibers.In: Chemical Encyclopaedia.Moscow: BRE Publication House.

20. Zverev, M.P. (1981). Chemical-sorption Fibers.Moscow: Chemistry Publications, 192-192 p.

21. Zverev, M.P. (1989).Chemosorption fibers Vion – material for environmental media defense of unhealthy substances. Chemical Fibers, 3: 32–37.

22. Levit, R.M. (1990).Properties and application of low- and middle-modulus carbon fibers. Chemical Fibers, 6: 16–18.

23.Perepelkin, K.E. (November, 2000). Kohlenstoff-Fasern auf Basis von Viscosefaser-Forproducten: Anvendungsmoglichkeiten. Technische Textilien. Bd. 43, s255–260.

24. Levit, R.M. (1986).Correlation of carbon fibers properties with constitution of raw polymers and conditions of carbonization and graphytization processes. IY International Symposium on Chemical Fibers. Kalinin: Preprints. Vol.5, pp. 17–22.

25. Levit, R.M. (1992). Production and application of carbon staple fibers. International Conference “Carbon – 92”. Essen, Proceedings DKG. pp. 937–939.

26. Perepelkin, K.E. (2001).Carbon fibers on the base of staple Hydratecell and PAN precursors, Bulletin of St-Pb. University of Technology and Design. St-Petersburg.No.6 – in press.

27. Levit, R.M. (1986). Electroconductive Chemical Fibers.Moscow: Chemia Publication House, 200-200 p.

28. Levit, R.M. , Dobrovolskaya, I.P. , Bercovich, M.D. et al. (1994). Carbon fibers as universal electroconductive and multifunctional filler for composite materials. International Conference “Carbon – 94”. Granada, Extended abstracts and Programme. pp. 734–735.