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Modern aspects of quantitative theory of free-radical copolymerization

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Book cover Free Radical Copolimerization Dispersions Glassy State Relaxation

Part of the book series: Advances in Polymer Science ((POLYMER,volume 103))

Abstract

This review aims to present as completely as possible the description of the current concepts of quantitative radical copolymerization theory. Its various aspects are discussed on the basis of a critical analysis of numerous original publications dealing with this problem. A number of approaches to the solution of the theoretical problems of practical importance, and their application to the prediction of copolymer properties have been considered. Serious attention is also paid to the discussion of kinetic copolymerization models, their experimental corroboration and discrimination of the above models to the description of concrete systems.

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10 References

  1. van Krevelen DV (1972) Properties of polymers. Correlations with chemical structure. Elsevier, Amsterdam

    Google Scholar 

  2. Korshak VV (1970) Khimicheskoe stroenie i temperaturnye kharacteristiki polimerov. Nauka, Moskva

    Google Scholar 

  3. Korshak VV (1977) Raznovennost polimerov. Nauka, Moskva

    Google Scholar 

  4. Gladyshev GP, Popov VA (1974) Radicalnaya polimerizatsia pri glubokikh stepeniakh prevrashenia. Nauka, Moskva

    Google Scholar 

  5. Wittmer P (1979) Makromol Chem Suppl 3: 129

    Google Scholar 

  6. Kuchanov SI (1978) Metodi kineticheskikh raschetov v khimii polymerov. Khimia, Moskva

    Google Scholar 

  7. Seiner JA (1965) J Polym Sci A 3: 2401

    Google Scholar 

  8. Friedman E (1965) J Polym Sci B 3: 815

    Google Scholar 

  9. Kuchanov SI (1986) Vysokomol soedin B 28: 234

    Google Scholar 

  10. Kuchanov SI (1981) Khimich promyshl N 11: 668

    Google Scholar 

  11. Wall FT (1944) J Amer Chem Soc 66: 2050

    Article  Google Scholar 

  12. Skeist I (1946) J Amer Chem Soc 68: 1781

    Article  Google Scholar 

  13. Kuchanov SI, Brun EB (1977) Zh prikl khim 50: 1106

    Google Scholar 

  14. Kuchanov SI, Efremov VA, Slinko MG (1986) Vysokomol soedin A 28: 964

    Google Scholar 

  15. Kuchanov SI (1987) IUPAC Intern Symp on free radical polymerization. Italy, Genoa p 183

    Google Scholar 

  16. Oscilations and Traveling Waves in Chemical Systems (eds) Field RJ, Burger M (1985) Wiley, Interscience New York

    Google Scholar 

  17. Kuchanov SI, Efremov VA, Slinko MG (1985) Dokl Acad Nauk SSSR 283: 413

    Google Scholar 

  18. Kuchanov SI (1987) Contemporary aspects of the quantitative theory of the radical copolymerization. in: Reactsii v Polimernikh Sistemakh (ed) Ivanchev SS p 107: Khimia, Leningrad

    Google Scholar 

  19. Mayo FR, Lewis FM (1944) J Amer Chem Soc 66: 1594

    Article  Google Scholar 

  20. Alfrey T, Bohrer JJ, Mark H (1952) Copolymerization. Interscience Publishers, New York

    Google Scholar 

  21. Young LJ (1961) J Polym Sci 54: 411

    Article  Google Scholar 

  22. Mark H, Immergut B et al (1965) in: Polymer Handbook (eds) Brandrup J, Immergut EH Interscience New York

    Google Scholar 

  23. Eastmond GG, Smith EG (1976) in: Free radical polymerization (eds) Bamford CH, Tipper CFH p 333 Elsevier New York

    Google Scholar 

  24. Greenley RZ (1980) J Macromol Sci A 14: 427, 445

    Google Scholar 

  25. Merz E, Alfrey T, Goldfinger G (1946) J Polym Sci 1: 75

    Article  Google Scholar 

  26. Barb WG (1953) J Polym Sci 11: 117

    Article  Google Scholar 

  27. Litt M, Bauer FW (1967) J Polym Sci C, N 16: 1554

    Google Scholar 

  28. Inaki Y, Hirose S et al (1971) Polymer J 2: 481

    Google Scholar 

  29. Kreisel M, Garbatski V, Kohn DH (1964) J Polym Sci A 2: 105

    Google Scholar 

  30. Ham G (1954) J Polym Sci 14: 87

    Article  Google Scholar 

  31. Natansohn A, Maxim S, Feldman D (1978) Eur Polym J 14: 283

    Article  Google Scholar 

  32. Fukuda T, Ma Y-D, Inagaki H (1982) Polymer J 14: 705

    Google Scholar 

  33. van der Meer R, Alberti JH et al (1979) J Polym Sci Polym Chem Ed 17: 3349

    Article  Google Scholar 

  34. Guillot J, Vialle J, Guyot A. (1971) J Macromol Sci A 5: 735

    Google Scholar 

  35. Rounsefell JD, Pittman CU (1979) J Macromol Sci A 13: 153

    Google Scholar 

  36. Seiner JA, Litt M (1971) Macromolecules 4: 308

    Article  Google Scholar 

  37. Hill DJT, O'Donnell JH, O'Sullivan PW (1982) Progr Polym Sci 8: 215

    Article  Google Scholar 

  38. Kabanov VA, Zubov VP, Semchikov YuD (1987) Kompleksno-radicalnaya sopolymerizatsia Khimia, Moskva

    Google Scholar 

  39. Lowry GG (1960) J Polym Sci 42: 463

    Article  Google Scholar 

  40. Ham GE (1960) J Polym Sci 45: 177

    Article  Google Scholar 

  41. Izu M, O'Driscoll KF et al (1972) Macromolecules 5: 90

    Article  Google Scholar 

  42. Tsuchida E, Tomono T (1971) Makromol Chem 141: 265

    Article  Google Scholar 

  43. Karad P, Schneider C (1978) J Polym Sci, Polym Chem Ed 16: 1137

    Google Scholar 

  44. Tudos F, Kelen T, Foldes-Bereznikh T (1975) J Polym Sci, Polym Symp N 50: 109

    Google Scholar 

  45. Alfrey T, Goldfinger G (1944) J Chem Phys 12: 322

    Article  Google Scholar 

  46. Walling C, Briggs ER (1945) J Amer Chem Soc 67: 1774

    Article  Google Scholar 

  47. Ham GE (1964) J Polym Sci A 2: 4191

    Google Scholar 

  48. Kutscher RV, Zaitsev JS (1974) Makromol Chem 175: 881

    Article  Google Scholar 

  49. Korolev SV, Kuchanov SI (1982) Vysokomol soedin A 24: 638

    Google Scholar 

  50. Kang BK, O'Driscoll KF, Howell JA (1972) J Polym Sci A-1 10: 2349

    Article  Google Scholar 

  51. Price FP (1962) J Chem Phys 36: 209

    Article  Google Scholar 

  52. Stroganov LB (1968) in: Novoe v Metodakh Issledovania Polimerov p 286 Mir, Moskva

    Google Scholar 

  53. Price FP (1970) in: Markov chains and monte carlo calculations in polymer science p 187 Marcel Dekker Inc, New York

    Google Scholar 

  54. Stokmayer WH (1945) J Chem Phys 13: 199

    Article  Google Scholar 

  55. Spencer HG (1975) J Polym Sci, Polym Chem Ed 13: 1253

    Google Scholar 

  56. Pittmann CU, Rounsefell TD (1975) Macromolecules 8: 46

    Article  Google Scholar 

  57. Cais RE, Farmer RG, Hill DJT, O'Donnell JH (1979) Macromolecules 12: 835

    Article  Google Scholar 

  58. Natansohn A, Galea D et al (1981) J Macromol Sci A 15: 393

    Google Scholar 

  59. Korolev SV, Kuchanov SI (1982) Vysokomol soedin A 24: 647

    Google Scholar 

  60. Kuchanov SI, Korolev SV, Zubov VP, Kabanov VA (1984) Polymer 25: 100

    Article  Google Scholar 

  61. Ring W (1963) J Polym Sci B 1: 323

    Google Scholar 

  62. Harwood HJ, Ritchey WM (1964) J Polym Sci B 2: 601

    Google Scholar 

  63. Ito K, Yamashita Y (1965) J Polym Sci A 3: 2165

    Google Scholar 

  64. Coleman BD, Fox TG, Reinmoller M (1966) J Polym Sci B 4: 1029

    Google Scholar 

  65. Tosi C (1970) Makromol Chem 138: 299

    Article  Google Scholar 

  66. Tada K, Fueno T, Furukawa J (1966) J Polym Sci A-1, 4: 2981

    Article  Google Scholar 

  67. Liga A, Negulescu I, Simionescu Cr (1974) Rev Roum Chim 19: 911

    Google Scholar 

  68. Georgiev GS (1986) J Macromol Sci A 10: 1063

    Google Scholar 

  69. Durgarian AA et al (1986) Vysokomol soedin A 28: 1953

    Google Scholar 

  70. Galvan R, Tirrell M (1986) J Polym Sci Polym Chem Ed 24: 803

    Google Scholar 

  71. Tosi C, Catinella G (1970) Makromol Chem 137: 211

    Article  Google Scholar 

  72. Tosi C (1968) Adv Polym Sci 5: 451

    Google Scholar 

  73. Corradini P, Tosi C (1968) Eur Polym J 4: 227

    Article  Google Scholar 

  74. Tosi C, Corradini P, Valvassori A, Ciampelly F (1969) J Polym Sci C, N 22: 1085

    Google Scholar 

  75. Tosi C (1971) Makromol Chem 150: 199

    Article  Google Scholar 

  76. Tosi C (1971) in: NMR basic principles and progress 4: 129

    Google Scholar 

  77. Tosi C (1975) Makromol Chem 176: 453

    Article  Google Scholar 

  78. Whelan JM (1954) J Polym Sci 14: 409

    Article  Google Scholar 

  79. Igarashi S (1963) J Polym Sci B 1: 359

    Google Scholar 

  80. Kinsinger JB, Colton D (1965) J Polym Sci B 3: 797

    Google Scholar 

  81. Tosi C (1967) Makromol Chem 108: 307

    Article  Google Scholar 

  82. Izu M, O'Driscoll KF (1970) J Appl Polym Sci 14: 1515

    Article  Google Scholar 

  83. Price FP (1968) J Polym Sci C, N 25: 3

    Google Scholar 

  84. Smidsrod O, Whittington SG (1969) Macromolecules 2: 42

    Article  Google Scholar 

  85. Mirabella FM (Jr) (1977) Polymer 18: 705

    Article  Google Scholar 

  86. O'Driscoll KF (1977) in: Computer in Polymer Science (eds) Mattson JS, Mark HB, MacDonald HC Dekker, New York p 97

    Google Scholar 

  87. Motoc I (1977) Math Chem 3: 245

    Google Scholar 

  88. Motoc I, Holban S, Cuibotariu D (1977) J Polym Sci, Polym Chem Ed 15: 1465

    Google Scholar 

  89. Motoc I, Vancea R, Holban S (1978) J Polym Sci, Polym Chem Ed 16: 1587, 1595

    Google Scholar 

  90. Motoc I, Holban S, Vancea R (1978) J Polym Sci, Polym Chem Ed 16: 1601

    Google Scholar 

  91. Motoc I, Muscutariu I (1981) J Macromol Sci A 15: 75

    Google Scholar 

  92. Motoc I (1981) J Macromol Sci A 15: 85

    Google Scholar 

  93. Duever TA, O'Driscoll KF, Reilly PM (1988) J Polym Sci, Polym Chem Ed 26: 965

    Google Scholar 

  94. Theil M (1983) J Polym Sci, Polym Chem Ed 21: 633

    Google Scholar 

  95. Rakotsi D, Gubka G, Oprescu K (1988) Vysokomol soedin A 30: 123

    Google Scholar 

  96. Fuena T, Furukawa J (1964) J Polym Sci A 2: 3681

    Google Scholar 

  97. Tosi C, Chioccola G (1973) Makromol Chem 171: 105

    Article  Google Scholar 

  98. Tsuchida F, Mishima K et al (1972) J Polym Sci, Polym Chem Ed 10: 3615

    Google Scholar 

  99. Harwood HJ, Kodiara Y, Newman DL (1977) in: Computer in Polymer Science (eds) Mattson JS, Mark HB (Jr), MacDonald HC (Jr) Dekker, New York and Basel p 57

    Google Scholar 

  100. Mirabella, FM (1977) Polymer 18: 929

    Google Scholar 

  101. Motoc I, Muscutariu I, Holban S, Dragomir O (1980) J Polym Sci, Polym Chem Ed 18: 1565

    Google Scholar 

  102. Motoc I, O'Driscoll KF (1981) Lecture notes in chemistry 27: 62

    Google Scholar 

  103. Kodiara Y, Harwood HJ (1982) in: Computer Application in applied polymer science, (ed) Provder T ACS Sympos Ser 197: 137

    Google Scholar 

  104. Tosi C (1970) Eur Polym J 6: 161

    Article  Google Scholar 

  105. Ham GE (1983) J Macromol Sci A 19: 699

    Google Scholar 

  106. Zilberman EI (1979) Vysokomol soedin B 21: 33

    Google Scholar 

  107. Simionescu CrI, Liga A (1976) Rev Roum Chim 21: 1555

    Google Scholar 

  108. Seiner JA (1964) J Polym Sci B 2: 985

    Google Scholar 

  109. Georgiev GS (1978) J Macromol Sci A 12: 1175

    Google Scholar 

  110. Tosi C (1972) Eur Polym J 8: 91

    Article  Google Scholar 

  111. Hijmans J (1963) Physica 29: 1

    Google Scholar 

  112. Hijmans J (1963) Physica 29: 819

    Google Scholar 

  113. Georgiev GS (1979) Makromol Chem 180: 1277

    Article  Google Scholar 

  114. Robertson HH (1979) J Inst Math Appl 23: 405

    Google Scholar 

  115. Harary F (1969) Graph Theory. Addison-Wesley Publ Comp London

    Google Scholar 

  116. Alfrey T, Goldfinger G (1946) J Chem Phys 14: 115

    Article  Google Scholar 

  117. Walling C, Seymour D, Wolfstirn KB (1948) J Amer Chem Soc 70: 1544

    Article  Google Scholar 

  118. Iwatsuki S, Yamashita Y (1967) Makromol Chem 104: 263

    Article  Google Scholar 

  119. Tomescu M, Simionescu Cr (1975) Eur Polym J 11: 453

    Article  Google Scholar 

  120. Wittmer P, Demmler K (1975) Makromol Chem Suppl 1: 263

    Article  Google Scholar 

  121. Tarasov AI, Tskhay VA, Spasskiy SS (1960) Vysokomol soedin 2: N 11, 1601

    Google Scholar 

  122. Braun D, Brendlein W et al (1975) J Macromol Sci A 9: 1457

    Google Scholar 

  123. Rios L, Guillot J (1978) J Macromol Sci A 12: 1151

    Google Scholar 

  124. O'Driscoll KF (1967) ACS Polym Preprints 8: 205

    Google Scholar 

  125. Wittmer P, Hafner F, Gerrens H (1967) Makromol Chem 104: 101

    Article  Google Scholar 

  126. Ham GE (1966) J Macromol Chem 1: 93

    Google Scholar 

  127. O'Driscoll KF (1968) J Polym Sci C: N 25, 47

    Google Scholar 

  128. Slocombe RJ (1957) J Polym Sci 26: 9

    Article  Google Scholar 

  129. Kambe Y (1973) J Macromol Sci A 7: 547

    Google Scholar 

  130. Cruise DR, Lacombe RG (1970) J Polym Sci A-1 8: 1373

    Article  Google Scholar 

  131. Kelen T, Turssanyi B, Disselhoff G (1978) J Macromol Sci A 12: 35

    Google Scholar 

  132. Valvassori A, Sartory G (1967) Adv Polym Sci 5: 28

    Google Scholar 

  133. Quella F (1989) Makromol Chem 190: 1445

    Article  Google Scholar 

  134. Brun EB, Kuchanov SI (1977) Vysokomol soedin A 19: 488

    Google Scholar 

  135. Ring W (1967) Makromol Chem 101: 145

    Article  Google Scholar 

  136. Zaitsev YuS, Kucher RV, Zubov VP (1977) in: Kinetica i mekhanizm reaktsiy obrazovania polimerov. Naukova, Dumka Kiev p 3

    Google Scholar 

  137. Quella F, Braun D (1982) Makromol Chem 183: 2537

    Article  Google Scholar 

  138. Ring W (1968) Eur Polym J 4: 413

    Article  Google Scholar 

  139. Zaitsev YuS et al (1974) Dokl Acad Nauk Ucr SSR B: N 10, 904

    Google Scholar 

  140. Tarasov AI, Tskhay VA, Spasskiy SS (1961) Vysokomol soedin 3: 14

    Google Scholar 

  141. Zaitsev YuS et al (1972) Dokl Acad Nauk Ucr SSR B: N 9, 823

    Google Scholar 

  142. Ham GE (1983) J Macromol Sci A 19: 693

    Google Scholar 

  143. Valvassori A, Sartori G (1962) Rend Ist Lombardo Sci Lettere A 96: 107

    Google Scholar 

  144. Crespi G, Valvassori A, Sartori G (1964) in: Copolymerization (ed) Ham G Interscince New York p 295

    Google Scholar 

  145. Ham GE (1964) J Polym Sci A 2: 2735

    Google Scholar 

  146. Ham GE (1964) J Polym Sci A 2: 4169

    Google Scholar 

  147. Ham GE (1964) J Polym Sci A 2: 4181

    Google Scholar 

  148. Ham GE (1966) J Macromol Chem 1: 103

    Google Scholar 

  149. Ham GE, Lipman DA (1967) J Macromol Sci A 1: 1005

    Google Scholar 

  150. Mayo FR (1964) J Polym Sci A 2: 4207

    Google Scholar 

  151. O'Driscoll KF (1965) J Polym Sci B 3: 305

    Google Scholar 

  152. Tidwell PW, Mortimer GA (1966) J Polym Sci B 4: 527

    Google Scholar 

  153. O'Driscoll KF, Tidwell PW, Mortimer G (1967) J Polym Sci B 5: 575

    Google Scholar 

  154. Sawada H (1967) J Macromol Sci A 1: 559

    Google Scholar 

  155. Ham GE (1967) J Macromol Sci A 1: 561

    Google Scholar 

  156. O'Driscoll KF, Izu M (1970) J Macromol Sci A 4: 311

    Google Scholar 

  157. Alfrey T (Jr), Bohrer JJ, Mark H (1952) Copolymerization. Interscience Publishers, New York

    Google Scholar 

  158. van der Hauw T (1965) J Polym Sci B 3: 715

    Google Scholar 

  159. Fordyce RG, Chapin EC, Ham GE (1948) J Amer Chem Soc 70: 2489

    Article  Google Scholar 

  160. Jenkins AD (1974) in: Reactivity, mechanism and structure in polymer chemistry, (eds) Jenkins AD and Ledwith AL, Wiley — Interscience Publ, London

    Google Scholar 

  161. Bamford CH, Jenkins AD (1961) J Polym Sci 53: 149

    Google Scholar 

  162. Bamford CH, Jenkins AD (1963) Trans Faraday Soc 59: 530

    Article  Google Scholar 

  163. Jenkins AD (1965) Eur Polym J 1: 177

    Article  Google Scholar 

  164. Ham GE (1966) J Macromol Chem 1: 403

    Google Scholar 

  165. Pyun CW (1971) J Polym Sci A-2: 9, 577

    Google Scholar 

  166. O'Driscoll KF, Ham GE (1967) J Macromol Sci A 1: 1365.

    Google Scholar 

  167. Tosi C, Campadelli F (1975) Makromol Chem 176: 177

    Article  Google Scholar 

  168. Gindin LM et al (1947) Dokl Acad Nauk SSSR 56: 177

    Google Scholar 

  169. Spinner IH, Lu BC-Y, Graydon, WF (1955) J Amer Chem Soc 77: 2198

    Article  Google Scholar 

  170. Meyer VE, Lowry GG (1965) J Polym Sci A 3: 2843

    Google Scholar 

  171. Ring W (1964) Dechema Monograph. 49: 75

    Google Scholar 

  172. Kruse RL (1967) J Polym Sci B 5: 437

    Google Scholar 

  173. Molau GE (1967) J Polym Sci A-1: 5, 401

    Google Scholar 

  174. Miagchenkov VA, Frenkel SYa (1969) Vysokomol soedin A 11: 2348

    Google Scholar 

  175. Miagchenkov VA et al (1972) Vysokomol soedin B 14: 693

    Google Scholar 

  176. Iziumnikov AL (1976) Vysokomol soedin B 18: 162

    Google Scholar 

  177. Iziumnikov AL, Virskiy Yu P (1967) Vysokomol soedin A 9: 1996

    Google Scholar 

  178. Miagchenkov VA et al (1968) Dokl Acad Nauk SSSR 181: 147

    Google Scholar 

  179. Cantow HJ, Fuchs O (1965) Makromol Chem 83: 244

    Article  Google Scholar 

  180. Elias HG (1967) Makromol Chem 104: 142

    Article  Google Scholar 

  181. Markert G (1967) Makromol Chem 103: 109

    Article  Google Scholar 

  182. Buck M (1970) Angew Makromol Chem 11: 63

    Article  Google Scholar 

  183. Mazo LD et al (1971) Vysokomol soedin B 13: 565

    Google Scholar 

  184. Rostovtseva SA, Mazo LD, Roskin ES (1976) Izv VUZov, ser Khim i Khim Technologia, 19: 93

    Google Scholar 

  185. Riabov SA (1986) Ph D Thesis. NII Khimii i Tekhnologii Polimerov im VA Kargina, Dzerzhinsk

    Google Scholar 

  186. Miagchenkov VA, Frenkel SYa (1968) Usp Khimii 37: 2247

    Google Scholar 

  187. Litmanovich AD, Iziumnikov AL (1968) in: Novoe v methodakh issledovania polymerov (eds) Rogovin ZA, Zubov VP: s 200

    Google Scholar 

  188. Miagchenkov VA, Frenkel SYa (1978) Usp Khimii 47: 1261

    Google Scholar 

  189. Miagchenkov VA, Frenkel SYa (1988) Kompozitsionnaya neodnorodnost sopolimerov.: Khimia, Leningrad

    Google Scholar 

  190. Stejskal J, Kratochvil P (1978) J Appl Polym Sci 22: 2925

    Article  Google Scholar 

  191. Stejskal J, Kratochvil P (1980) J Appl Polym Sci 25: 407

    Article  Google Scholar 

  192. Prochazka O, Kratochvil P (1984) J Polym Sci, Polym Lett 22: 501

    Google Scholar 

  193. Harwood HJ (1967) ACS Polym Preprints 8: 199

    Google Scholar 

  194. Harwood HJ (1968) J Polym Sci C, N 25: 37

    Google Scholar 

  195. Chan RKS, Meyer VE (1967) J Macromol Sci A 1: 1089

    Google Scholar 

  196. Chan RKS, Meyer VE (1968) J Polym Sci C, N 25: 11

    Google Scholar 

  197. Simionescu Cr et al (1967) Makromol Chem 110: 278

    Article  Google Scholar 

  198. Balashov AV et al (1972) Izv VUZov, ser Khim i Khim Technologia 15: 1212

    Google Scholar 

  199. Simionescu Cr, Liga A (1977) Rev Roum Chim 22: 49

    Google Scholar 

  200. Saric K, Janovic Z, Vogl O (1984) J Macromol Sci A 21: 267

    Google Scholar 

  201. Kuchanov SI (1989) Makromol Chem, Macromol Symp 26: 371

    Google Scholar 

  202. Kuchanov SI (1988) Vysokomol soedin A 30: 2312

    Google Scholar 

  203. Kuchanov SI (1989) Matematicheskoe modelirovanie 1: 37

    Google Scholar 

  204. Arrowsmith DK, Place CM (1982) Ordinary differential equations. A qualitative approach with applications. Chapmen and Hall, London — New York

    Google Scholar 

  205. Spiegel MR (1981) Applied differential equations. Prentice-Hall: 654 p

    Google Scholar 

  206. Thompson JMT, Stewart HB (1986) Nonlinear dynamics and chaos. John Wiley and sons

    Google Scholar 

  207. Koenig JL (1980) Chemical microstructure of polymer chains. John Wiley and sons

    Google Scholar 

  208. Berger M, Kuntz I (1964) J Polym Sci A 2: 1687

    Google Scholar 

  209. Ito K, Iwase S, Yamashita Y (1967) Makromol Chem 110: 233

    Article  Google Scholar 

  210. Ito K, Yamashita Y (1965) J Polym Sci B 3: 625

    Google Scholar 

  211. San Roman J, Madruga EL, Del Puerto MA (1980) Angew. Makromol Chem 86: 1

    Article  Google Scholar 

  212. Dhal PK (1986) J Macromol Sci A 23: 181

    Google Scholar 

  213. Lin DJ, Petit A, Neel J (1987) Makromol Chem 188: 1163

    Article  Google Scholar 

  214. Switala M, Wojtczak Z (1986) Makromol Chem 187: 2411

    Article  Google Scholar 

  215. Fineman M, Ross SD (1950) J Polym Sci 5: 259

    Article  Google Scholar 

  216. Yezrielev AJ, Brokhina EL, Roskin YS (1979) Vysokomol soedin A 11: 1670

    Google Scholar 

  217. Kelen T, Tudos F (1975) J Macromol Sci A 9: 1

    Google Scholar 

  218. Joshi RM, Joshi SG (1971) J Macromol Sci A 5: 1329

    Google Scholar 

  219. Rodriguez F (1962) J Appl Polym Sci 6: 13

    Article  Google Scholar 

  220. Kuo JF, Chen ChY (1982) J Appl Polym Sci 27: 2747

    Article  Google Scholar 

  221. Johnston HK, Rudin A (1970) J Paint Technol 42: 429

    Google Scholar 

  222. Braun D, Brendein W, Mott G (1973) Eur Polym J 9: 1007

    Article  Google Scholar 

  223. Tosi C (1973) Eur Polym J 9: 357

    Article  Google Scholar 

  224. Behnken DW (1964) J Polym Sci A 2: 645

    Google Scholar 

  225. Tidwell P, Mortimer GA (1965) J Polym Sci A 3: 369

    Google Scholar 

  226. Kress AO, Mathias LJ, Cei G (1989) Macromolecules 22: 537

    Article  Google Scholar 

  227. Leicht R, Fuhrmann J (1983) J Polym Sci, Polym Chem Ed 21: 2215

    Google Scholar 

  228. McFarlane RC et al (1980) J Polym Sci, Polym Chem Ed 18: 251

    Google Scholar 

  229. Shtraikhman GA et al (1958) Zh Fiz Khim 32: 512

    Google Scholar 

  230. Meyer VE (1966) J Polym Sci A-1: 4, 2819

    Article  Google Scholar 

  231. Harwood HJ, Johnston NW, Piotrowski H (1968) J Polym Sci C, N 25: 23

    Google Scholar 

  232. Montgomery DR, Fry CE (1968) J Polym Sci C, N 25: 59

    Google Scholar 

  233. German AL, Heikens D (1971) J Polym Sci A-1, 9: 2225

    Article  Google Scholar 

  234. Makarov KA, Tomashevskaya GM et al (1971) Vysokomol soedin A 13: 239

    Google Scholar 

  235. Joshi RM (1973) J Macromol Sci A 7: 1231

    Google Scholar 

  236. Tudos F, Kelen T et al (1975) J Macromol Sci A 10: 1513

    Google Scholar 

  237. Natansohn A (1978) Brit Polym J 10: 218

    Google Scholar 

  238. Yamada B, Itahashi M, Otsu T (1978) J Polym Sci, Polym Chem Ed 16: 1719

    Google Scholar 

  239. Van der Meer R, Linssen HW, German AL (1978) J Polym Sci, Polym Chem Ed 16: 2915

    Google Scholar 

  240. Kelen T, Tudos F, Turcsanyi B (1980) Polym Bull 2: 74

    Article  Google Scholar 

  241. Patino-Leal H et al. (1980) J Polym Sci, Polym Lett Ed 18: 219

    Google Scholar 

  242. Watts DG, Linssen HN, Schrijver J (1980) J Polym Sci, Polym Chem Ed 18: 1285

    Google Scholar 

  243. Kuo JF, Chen CY (1981) J Appl Polym Sci 26: 1117

    Article  Google Scholar 

  244. Cherkezian VO, Litmanovich AD et al (1982) Vysokomol. soedin B 24: 237

    Google Scholar 

  245. Hautus FLM, Linssen HN, German AL (1984) J Polym Sci, Polym Chem Ed 22: 3487

    Google Scholar 

  246. Hautus FLM, Linessen HN, German AL (1984) J Polym Sci, Polym Chem Ed 22: 3661

    Google Scholar 

  247. Chee KK, Ng SC (1986) Macromolecules 19: 2779

    Article  Google Scholar 

  248. Plaumann HP, Branston RE (1989) J Polym Sci, Polym Chem Ed 27: 2819

    Google Scholar 

  249. Greenley RZ (1975) J Macromol Sci A 9: 505

    Google Scholar 

  250. Rounsefell TA, Pittman CV (1977) in: Computers in Polymer Science (eds) Mattson JS, Mark HB, MacDonald HC p 179, Marcel Dekker Inc, New York

    Google Scholar 

  251. Laurier GC, O'Driscoll KF, Reilly PM (1985) J Polym Sci, Polym Symp, N 72: 17

    Google Scholar 

  252. Batik LI, Basner ME et al (1971) Vysokomol soedin 13: 1133

    Google Scholar 

  253. Chen FB, Bufkin BG (1981) J Polym Sci, Polym Chem Ed 19: 3027

    Google Scholar 

  254. Moskovskiy SL, Goldin PO, Liubetskiy SG (1982) Vysokomol soedin B 24: 819

    Google Scholar 

  255. Hautus FLM, German AL, Linssen HN (1985) J Polym Sci, Polym Lett Ed 23: 311

    Google Scholar 

  256. Jaacks V (1972) Makromol Chem 161: 161

    Article  Google Scholar 

  257. Burfield DR, Savariar CM (1982) J Polym Sci, Polym Chem Ed 20: 515

    Google Scholar 

  258. Barson CA (1984) Eur Polym J 20: 125

    Article  Google Scholar 

  259. Tidwell PW, Mortimer GA (1970) J Macromol Sci C 4: 281

    Google Scholar 

  260. Joshi RM (1973) J Macromol Sci A 7: 1231

    Google Scholar 

  261. Rudin A (1977) in: Computer in polymer science, (eds) Mattson JS, Mark HB, MacDonald HC, p 117, Marcel Dekker Inc, New York — Basel

    Google Scholar 

  262. Rudin A (1982) The elements of polymer science and engineering. Academic Press

    Google Scholar 

  263. Garcia-Rubio LH et al (1982) in: Computer applications in applied polymer science, (ed) Provder T, p 87, ACS Symposium Ser N 197

    Google Scholar 

  264. Rudin A (1984) in: Polymer yearbook, (eds) Elias HG, Pethrick RA, p 193, 1, Harwood Acad Publ

    Google Scholar 

  265. O'Driscoll KF, Reilly PM (1987) Makromol Chem, Macromol Symp 10, 11: 355

    Google Scholar 

  266. Iwatsuki S, Yamashita Y (1967) Makromol Chem 104: 263

    Article  Google Scholar 

  267. Aoyagi J, Shinohara I (1971) J Chem Soc Japan, Industrial Chem Section 74: 784

    Google Scholar 

  268. Rudin A, Ableson WR et al (1973) J Macromol Sci A 7: 1203

    Google Scholar 

  269. Alexandrov VA, Sautin SN (1977) Zh Prikl Khimii 50: 1368

    Google Scholar 

  270. Duever TA, O'Driscoll KF, Reilly PM (1983) J Polym Sci, Polym Chem Ed 21: 2003

    Google Scholar 

  271. Guillot J (1971) in: Natural and synthetic high polymers, 4 in Ser. NMR. Basic principles and progress, (eds) Diehl P, Fluck E, Kosfeld R, p 109

    Google Scholar 

  272. Harwood H (1965) Angew. Chem 77: 1124

    Google Scholar 

  273. Borchardt JK (1985) J Macromol Sci A 22: 1711

    Google Scholar 

  274. Chujo R (1966) J Phys Soc Japan 21: 2669

    Article  Google Scholar 

  275. Chujo R, Ubara H, Nishioka A (1972) Polymer J 3, 670

    Google Scholar 

  276. Makushka RYu, Bayoras GI, Seno M (1988) Vysokomol soedin B 30: 488

    Google Scholar 

  277. O'Driscoll KF (1980) J Polym Sci, Polym Chem Ed 18: 2747

    Google Scholar 

  278. Rudin A, O'Driscoll KF, Rumack MS (1981) Polymer 22: 740

    Article  Google Scholar 

  279. Uebel JJ, Dinan FJ (1983) J Polym Sci, Polym Chem Ed 21: 917 (1983)

    Google Scholar 

  280. San Roman J, Madruga EL, Del Puerto MA (1979) Angew Makromol Chem 78: 129

    Article  Google Scholar 

  281. Uebel JJ, Dinan FJ (1983) J Polym Sci, Polym Chem Ed 21: 2427

    Google Scholar 

  282. Hill DJT, O'Donnell JH, O'Sullivan PW (1982) Macromolecules 15: 960

    Article  Google Scholar 

  283. Hill DJT, O'Donnell JH (1987) Makromol Chem, Macromol Symp 10/11: 375

    Google Scholar 

  284. Hill DJT, O'Donnell JH, O'Sullivan PW (1987) in: Current topics in polymer science, 1: p 137, Part 3.1, Hanser Publ, Munich, Vienna, New York

    Google Scholar 

  285. Hill DJT, Lang AP, O'Donnell JH, O'Sullivan PW (1989) Eur Polym J 25: 911

    Article  Google Scholar 

  286. Bevington JC, Huckerby TN, Hutton NW (1982) J Polym Sci, Polym Chem Ed 20: 2655

    Google Scholar 

  287. Bevington C, Brener SW, Huckerby TN (1984) Polymer Communications 25: 260

    Google Scholar 

  288. Bevington JC, Cywar DA, Huckerby TN, Senogles E, Tirrell DA (1988) Eur Polym J 24, N 7: 699

    Article  Google Scholar 

  289. Bevington DA, Cywar DA, Huckerby TN, Senogles E, Tirrell DA (1990) Eur Polym J 26, N 1: 41

    Article  Google Scholar 

  290. Jones SA, Prementine GS, Tirrell DA (1985) JACS 107: 5275

    Article  Google Scholar 

  291. Cywar DA, Tirrell DA (1986) Macromolecules 19: 2908

    Article  Google Scholar 

  292. Prementine GS, Tirrell DA (1987) Macromolecules 20: 3034

    Article  Google Scholar 

  293. Prementine GS, Tirrell DA (1989) Macromolecules 22: 52

    Article  Google Scholar 

  294. Jones SA, Tirrell DA (1987) J Polym Sci, Polym Chem Ed 25: 3177

    Google Scholar 

  295. Prementine GS, Jones SA, Tirrell DA (1989) Macromolecules 22: 770

    Article  Google Scholar 

  296. Giese B, Engelbrecht R (1984) Polym Bull 4: 55

    Article  Google Scholar 

  297. Tanaka H, Sakai I, Sasai K, Sato T, Ota T (1988) J Polym Sci, Polym Lett Ed 26: 11

    Google Scholar 

  298. Tanaka H, Sasai K, Sato T, Ota T (1988) Macromolecules 21: 3536

    Article  Google Scholar 

  299. Pittman CU, Rounsefell F (1973) J Polym Sci, Polym Chem Ed 11: 621

    Google Scholar 

  300. Pittman CU, Rounsefell TDA (1977) in: Computer in Polymer Science, (eds) Mattson JS, Mark HB, MacDonald HC, p. 145, Marcel Dekker Inc, New York

    Google Scholar 

  301. Shawki SM, Hamielec AE (1979) J Appl Polym Sci 23: 3155

    Article  Google Scholar 

  302. Harwood HJ (1981) in: Data Processing in Chemistry, (ed) Hippe Z, p 1333, Elsevier Sci Publ, New York

    Google Scholar 

  303. Harwood HJ (1987) Makromol Chem, Macromol Symp 10/11: 331

    Google Scholar 

  304. McFarlane RC, Reilly PM, O'Driscoll KF (1980) J Polym Sci, Polym Lett Ed 18: 81

    Google Scholar 

  305. O'Driscoll KF, Kale LT et al (1984) J Polym Sci, Polym Chem Ed 22: 2777

    Google Scholar 

  306. Herz J, Decker-Freyss D, Rempp P (1968) J Polym Sci C, N 16: 4035

    Google Scholar 

  307. Johnson M, Karmo TS, Smith RR (1978) Eur Polym J 14: 409

    Article  Google Scholar 

  308. Dionisio JM, O'Driscoll KF (1979) J Polym Sci, Polym Lett Ed 17: 701

    Google Scholar 

  309. Yamashita Y, Ito K (1969) Appl Polym Symp N 8: 245

    Google Scholar 

  310. Kuchanov SI, Orlova ZV et al (1989) Vysokomol soedin A 31: 474

    Google Scholar 

  311. Saric K, Yanovic Z, Vogl O (1983) J Polym Sci, Polym Chem Ed 21: 1913

    Google Scholar 

  312. Janovic Z, Saric K, Vogl O (1983) J Polym Sci, Polym Chem Ed 211: 2713

    Google Scholar 

  313. Janovic Z, Saric K, Vogl O (1985) J Macromol Sci A 22: 85

    Google Scholar 

  314. Barton JM (1970) J Polym Sci C, N 30: 573

    Google Scholar 

  315. Johnston N (1973) Polym Prepr J Amer Chem Soc 14, N 1: 46

    Google Scholar 

  316. Johnston NW (1976) J Macromol Sci-Rev Macromol Chem 14: 215

    Google Scholar 

  317. Hirooka M, Kato T (1974) J Polym Sci, Polym Lett Ed 12: 31

    Google Scholar 

  318. Daimon H, Okitsu H, Kumanotani J (1975) Polymer J 7: 460

    Google Scholar 

  319. Nielsen LE (1953) J Amer Chem Soc 75, N 6: 1435

    Article  Google Scholar 

  320. Slavnitskayia NN, Semchikov YuD, Riabov SA (1979) Vysokomol soedin B 21: 23

    Google Scholar 

  321. Riabov SA, Slavnitskayia NN et al (1980) Docl Acad Nauk SSSR 253: 118

    Google Scholar 

  322. Askill IN, Gilding DK (1981) Polymer 22: 342

    Article  Google Scholar 

  323. Lifshits IA, Erenburg EG (1981) Kauchuk i rezina, N 5, 6

    Google Scholar 

  324. Wall ET, Delbecq CJ, Florin RE (1952) J Polym Sci 9: 177

    Article  Google Scholar 

  325. Agasandian VA, Kudriavtseva LG, Litmanovich AD et al (1967) Vysokomol soedin A 9: 2634

    Google Scholar 

  326. Bilous O, Piret EL (1955) AIChEr Journ 1: 480

    Article  Google Scholar 

  327. Litmanovich AD, Agasandian VA (1966) Kinetika i kataliz 7, N 2: 309

    Google Scholar 

  328. Agasandian VA, Litmanovich AD, Shtern VYa (1967) Kinetika i kataliz 8, N 4: 773

    Google Scholar 

  329. Hamidov SS, Musaev UN, Litmanovich AD (1978) Abstracts of short communications of International Symp. on Macromol Chemistry. 2: p 58, Nauka, Moskva

    Google Scholar 

  330. Szabo TT, Nauman EB (1969) AIChEr Journ 15: 575

    Article  Google Scholar 

  331. O'Driscoll KF, Knorr R (1969) Macromolecules 2: 507

    Article  Google Scholar 

  332. Mecklenburgh JC (1970) Can J Chem Eng 48: 279

    Google Scholar 

  333. Ray WH, Douglas TL, Godslave E (1971) Macromolecules 4: 166

    Article  Google Scholar 

  334. Penchev P (1975) Makromol Chem 176: 1383

    Article  Google Scholar 

  335. Glushionok IN (1975) Zh Prikl Khim 48: N 12, 2707

    Google Scholar 

  336. Balaraman KS, Kulkarni BD, Mashelkar RA (1982) J Appl Polym Sci 27: 2815

    Article  Google Scholar 

  337. Nauman EB (1974) J Macromol Sci-Rev Macromol Chem C 10: 75

    Google Scholar 

  338. Hamielec AE, MacGregor JF, Penlidis A (1987) Makromol Chem, Makromol Symp 10/11: 521

    Google Scholar 

  339. Biesenberger JA, Sebastian DH (1983) Principles of Polymerization Engineering. Wiley-Interscience Publishers, New York

    Google Scholar 

  340. Hamielec AE, Mac Gregor JF, Penlidis A (1989) Copolymerization. p 17 in “Comprehensive Polymer Science” v 3, (eds) Allen G, Bevington JC: Pergamon Press

    Google Scholar 

  341. San Roman J, Madruga EL, Del Puerto MA (1983) J Polym Sci, Polym Chem Ed 21: 691

    Google Scholar 

  342. Fehervari A, Foldes-Berezshich T, Tudos F (1982) J Macromol Sci Chem A 18: 337

    Google Scholar 

  343. Wittmer P (1974) Angew Makromol Chem 39: 35

    Article  Google Scholar 

  344. Braun D, Czerwinski WK (1987) Makromol Chem, Makromol Symp 10/11: 415

    Google Scholar 

  345. Bradbury JH, Melville HW (1954) Proc Roy Soc, A 222: 456

    Google Scholar 

  346. Nikiforov VS, Zaitsev YuS, Bondarenko AV (1980) Ukr Khim Zhurn 46, N 1: 64–68

    Google Scholar 

  347. Semchikov Yu D, Smirnova LA et al (1988) Dokl Acad Nauk SSSR 298: 411

    Google Scholar 

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  1. Polymer Department, Faculty of Chemistry, Lomonosov Moscow State University, V-234, 119899, Moscow, USSR

    Semion I. Kuchanov

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Kuchanov, S.I. (1992). Modern aspects of quantitative theory of free-radical copolymerization. In: Free Radical Copolimerization Dispersions Glassy State Relaxation. Advances in Polymer Science, vol 103. Springer, Berlin, Heidelberg. https://doi.org/10.1007/BFb0020903

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