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99. – I. 1. – P. 164–172.126. Raghavachari K., Haddon R. C., Starnes Jr. W. H. Primary event in thethermal dehydrochlorination of pristine poly(vinyl chloride): intermediacy ofa cyclic chloronium ion. // Journal of the American Chemical Society. – 1982– V.
104. – I. 19. – P. 5054–5056.127. Mayer Z. Thermal Decomposition of Polyvinyl Chloride) and of Its LowMolecular-Weight Model Compounds. // Journal of Macromolecular Science,Part C: Polymer Reviews. – 1974 – V. 10. – I. 2. – P. 263-292.196128. Martínez G., Gómez-Elvira J. M., Millán J. Influence of tacticity on thethermaldegradationof PVC. Part 7—Further approachesto theconformational mechanism through a temperature effect study.
// PolymerDegradation and Stability. – 1993 – V. 40. – I. 1. – P. 1-8.129. Millán J. L., Martínez G., Gómez-Elvira J. M., Guarrotxena N., Tiemblo P.Influence of tacticity on the thermal degradation of PVC: 8. A comprehensivestudy of the local isotactic GTTG− conformation dependence of themechanism of initiation. // Polymer. – 1996 – V. 37. – I. 2. – P. 219-230.130.
Milla´n J. L., Martı´nez G., Mijangos C., Go´mez-Elvira J. M.Configurational and conformational control of chemical modification andthermal degradation of poly(vinyl chloride). // Makromolekulare Chemie.Macromolecular Symposia. – 1989 – V. 29. – I. 1. – P. 185–196.131. Milla´n J., Martı´nez G., Jimeno M. L., Tiemblo P., Mijangos C., Go´mezElvira J. M. Configurational and conformational effects in the thermaldegradationofpoly(vinylchloride).//MakromolekulareChemie.Macromolecular Symposia. – 1991 – V. 48-49.
– I. 1. – P. 403–417.132. Rogestedt M., Hjertberg T. Structure and degradation of commercialpoly(vinyl chloride) obtained at different temperatures. // Macromolecules. –1993 – V. 26. – I. 1. – P. 60-64.133. Flory P. J., Pickles C. J. Stereochemical equilibrium in 2,4,6-trichloro-nheptane with applications to poly(vinyl chloride). // Journal of the ChemicalSociety, Faraday Transactions 2: Molecular and Chemical Physics. – 1973 –V.
69. – I. 0. – P. 632-642.134. Smith G. D., Ludovice P. J., Jaffe R. L., Yoon D. Y. Conformations of 2,4Dichloropentane and 2,4,6-Trichloroheptane and a Force Field for Poly(vinylchloride) Based upon ab Initio Electronic Structure Calculations. // Journal ofPhysical Chemistry. – 1995 – V.
99. – I. 1. – P. 164–172.197135. Behnisch J., Zimmermann H., Anders H. The influence of tacticity on thethermal degradation of PVC. // Polymer Degradation and Stability. – 1985 –V. 13. – I. 2. – P. 113-119.136. Scott G. Initiation processes in polymer degradation. // Polymer Degradationand Stability. – 1995 – V. 48. – I. 3. – P. 315-324.137. Starns W.
H., Edelson D. Mechanistic Aspects of the Behavior ofMolybdenum(VI) Oxide as a Fire-Retardant Additive for Poly(vinylchloride). An Interpretive Review. // Macromolecules. – 1979 – V. 12. – I. 5.– P. 797–802.138. Troitskii B. B., Troitskaya L. S. Degenerated branching of chain in poly(vinylchloride) thermal degradation. // European Polymer Journal. – 1999 – V. 35.– I. 12. – P. 2215-2224.139. Doering W.
v. E., Sarma K. Stabilization energy of polyenyl radicals: alltrans-nonatetraenyl radical by thermal rearrangement of a semirigid {4-1-2}heptaene. Model for thermal lability of beta.-carotene. // Journal of theAmerican Chemical Society. – 1992 – V. 114. – I. 15. – P. 6037–6043.140. Montaudo G., Puglisi C. Evolution of aromatics in the thermal degradation ofpoly(vinyl chloride): A mechanistic study. // Polymer Degradation andStability. – 1991 – V. 33. – I. 2.
– P. 229-262.141. James C. W. C., Peter C. U., Fan J.-L. Pyrolysis of polyacetylene. // Journalof Polymer Science: Polymer Chemistry Edition. – 1982 – V. 20. – I. 8. – P.2159–2167.142. CRC handbook of chemistry and physics, 82nd ed. / Ed. Lide D. R. –Colorado: CRC Press; 2001. – 2588 p.143. Knoll K., Schrock R. R. Preparation of tert-butyl-capped polyenes containingup to 15 double bonds. // Journal of the American Chemical Society. – 1989 –V. 111. – I.
20. – P. 7989–8004.198144. Arlman E. J. Thermal and oxidative decomposition of polyvinyl chloride. //Journal of Polymer Science: Polymer Chemistry Edition. – 1954 – V. 12. –I. 1. – P. 547–558.145. Winkler D. E. Mechanism of polyvinyl chloride degradation and stabilization.// Journal of Polymer Science: Polymer Chemistry Edition. – 1959 – V. 35. –I. 128. – P.
3–16.146. Stromberg R. R., Straus S., Achhammer B. G. Thermal decomposition ofpoly(vinyl chloride). // Journal of Polymer Science: Polymer ChemistryEdition. – 1959 – V. 35. – I. 129. – P. 355–368.147. Bacaloglu R., Fisch M. Degradation and stabilization of poly (vinyl chloride).V. Reaction mechanism of poly(vinyl chloride) degradation. // PolymerDegradation and Stability. – 1995 – V. 47.
– I. 1. – P. 33-57.148. Maccoll A. Heterolysis and the Pyrolysis of Alkyl Halides in the Gas Phase. //Chemical Reviews. – 1969 – V. 69. – I. 1. – P. 33–60.149. Sneen R. A., Carter J. V. Substitution at a saturated carbon atom. XVI.Supporting evidence for discrete, distinct allylically related ion pairs. //Journal of the American Chemical Society.
– 1972 – V. 94. – I. 20. – P. 6990–6997.150. Carbonium Ions Volume 2: Methods of Formation and Major Types(Reactive Intermediates in Organic Chemistry S.). / Olah G. A., Schleyer P.V. – John Wiley & Sons; 1970. – 500 p.151. Haddon R. C., Starnes Jr. W. H. Molecular Orbital Theory of PolyenesImplicated in the Dehydrochlorination of Poly(vinyl chloride). // Advances inChemistry Series. – 1978 – V.
169. – P. 333-362.152. Iva´n B. Thermal Stability, Degradation, and Stabilization Mechanisms ofPoly(vinyl chloride). // Advances in Chemistry Series. – 1996 – V. 249. – P.19-32.153. Iván B., Kennedy J. P., Kelen T., Tüdõs F., Nagy T. T., Turcsányi B.Degradation of PVCs obtained by controlled chemical dehydrochlorination. //199Journal of Polymer Science: Polymer Chemistry Edition. – 1983 – V. 21. –I. 8. – P. 2177–2188.154.
Yanborisov V. M., Borisevich S. S. Quantum-chemical modeling of themechanism of autocatalytic dehydrochlorination of PVC. // Theoretical andExperimental Chemistry. – 1995 – V. 41. – I. 6. – P. 352-358.155. Starnes Jr. W. H., Wallach J. A., Yao H. Six-Center Concerted Mechanismfor Poly(vinyl chloride) Dehydrochlorination.
// Macromolecules. – 1996 – V.29. – I. 23. – P. 7631–7633.156. The Aldrich library of C13 and H1 FT NMR spectra, vol. 1. / Pouchert C. J.,Behnke J., - Milwaukee, Aldrich Chemical Co.; 1993.157. Bacaloglu R., Fisch M. Degradation and stabilization of poly(vinyl chloride).III.
Correlation of activation enthalpies and entropies for dehydrochlorinationof chloroalkanes, chloralkenes and poly(vinyl chloride). // PolymerDegradation and Stability. – 1994 – V. 45. – I. 3. – P. 325-338.158. Bacaloglu R., Fisch M. Reaction mechanism of poly(vinyl chloride)degradation. Molecular orbital calculations. // Journal of Vinyl and AdditiveTechnology. – 1995 – V. 1. – I. 4. – P.
241–249.159. Bacaloglu R., Fisch M. Degradation and stabilization of poly(vinyl chloride).6: Model studies on dehydrochlorination of 6(4)-chloro-4(5)-tetradecenes inthe presence of alkyl phosphites and zinc di(dialkyl phosphites). // Journal ofVinyl and Additive Technology. – 1999 – V. 5. – I. 4. – P.
205–217.160. Bacaloglu R., Fisch M. Mechanism of poly(vinyl chloride) stabilisation. //Plastics, Rubber and Composites. – 1999 – V. 28. – I. 3. – P. 119-124.161. The chemical thermodynamics of organic compounds. / Stull D. R., WestrumJr. E.
F., Sinke G. C.– New York.: Wiley, 1969. – 319 с.162. Tran V. H. Polaron Mechanism in the Thermal Degradation and Stabilizationof Poly(vinyl Chloride). // Journal of Macromolecular Science, Part C:Polymer Reviews. – 1998 – V. 38. – I. 1. – P. 1-52.200163. Meier R.
J., Kip B. J. A quantum chemical study of the degradation and themaximum polyene length in PVC. // Polymer Degradation and Stability. –1992 – V. 38. – I. 1. – P. 69-84.164. Троицкий Б. Б., Троицкая Л.С., Разуваев Г.А. Некоторые особенноститермического распада поливинилхлорида и поливинилиденхлорида //Высокомолекулярные соединения А. – 1971 – т. 13.
– №. 5. – с. 1183-1189.165. W. von E. Doering, G.H. Beasley. Delocalization resonance energy of theallylic radical from the geometrical isomerization of hexa-1,3,5-trienes //Tetrahedron. – 1973 – V. 29. – I. 15. – P. 2231-2243.166. W. v. E. Doering, T. Kitagawa. Thermal cis-trans rearrangement of semirigidpolyenes as a model for the anticarcinogen beta.-carotene: an all-transpentaene and an all-trans-heptaene // Journal of the American ChemicalSociety.
– 1991 – V. 113. – I. 11. – P. 4288–4297.167. W. von Doering, C. Sotiriou-Leventis, W. R. Roth. Thermal interconversionsamong 15-cis-, 13-cis-, and all-trans-beta-carotene: kinetics, Arrheniusparameters, thermochemistry, and potential relevance to anticarcinogenicityof all-trans-beta-carotene // Journal of the American Chemical Society. –1995 – V. 117. – I.
10. – P. 2747–2757.168. K. W. Egger, T. Ll. James. Thermal geometrical isomerization of 1,trans3,trans-5-heptatriene and the concept of a biradical intermediate //Transactions of the Faraday Society. – 1970 – V. 66. – I. 1. – P. 410-420.169. Troitskii B. B., Troitskaya L. S. Mathematical models of the initial stage ofthe thermal degradation of poly(vinyl chloride)—3.
The thermal degradationof poly(vinyl chloride) in the presence of HCl. // European Polymer Journal.– 1995 – V. 31. – I. 6. – P. 533-539.170. Troitskii B. B., Troitskaya L. S., Yakhnov A. S., Lopatin M. A., Novikova M.A. Retardation of thermal degradation of PMMA and PVC by C 60. //European Polymer Journal. – 1997 – V. 33. – I. 10-12. – P. 1587-1590.201171. B.B. Troitskii, L.S. Troitskaya, A.S.
