[1]
Ju. V Dumskiy., B. I No., G. M Butov, Himiya i tehnologiya neftepolimernykh smol, Moscow, Himiya, 1999. 312.
Google Scholar
[2]
A. D Berenc, A. B Vol-Jepshtejn., Pererabotka zhidkih produktov piroliza, Moscow, Himija, 1985, 216.
Google Scholar
[3]
J.K. Shorrock, J.H. Clark, K. Wilson, J. Chisem, Use of a Supported Aluminium Chloride Catalyst for the Production of Hydrocarbon Resins, Organic Process Research & Development. 2001, V. 5, № 3, p.249–253.
DOI: 10.1021/op000124w
Google Scholar
[4]
D.D. Andjelkovic, R. C Larock, Novel Rubbers from Cationic Copolymerization of Soybean Oils and Dicyclopentadiene, Synthesis and Characterization, Biomacromolecules, 2006, V. 7, № 3, p.927–936.
DOI: 10.1021/bm050787r
Google Scholar
[5]
W. Risse, R.H. Grubbs, Polynorbornene and poly(exo-dicyclopentadiene) with aldehyde end groups, Macromolecule Chemistry, Rapid Commun, 1989, V. 10, № 2, p.73–78.
Google Scholar
[6]
Y.X. Peng, J.L. Liu, L.F. Cun, Microstruture of Polymers Obtained by Cationic Polymerization of endo-Dicyclopentadiene, J. Polym. Sci, 1996, V. 34, № 17, p.3527–3530.
DOI: 10.1002/(sici)1099-0518(199612)34:17<3527::aid-pola6>3.0.co;2-r
Google Scholar
[7]
Y. Qian, K. Dono, J. Huang, H. Ma, Ring-Opening Metathesis Polymerization of Dicyclopentadiene Catalyzed by Titanium Tetrachloride Adduct Complexes with Oxygen-Containing Ligands, J. Appl. Polym. Sci, 2001, V. 81, № 3, p.662–666.
DOI: 10.1002/app.1482
Google Scholar
[8]
A. Pacreau, M. Fontanille, Linear polymerization of endo-dicyclopentadiene inintiated by metathesis catalysts, Macromolecule Chemistry, 1987, V. 188, № 11, p.2585–2595.
Google Scholar
[9]
K. Dono, J. Huang, H. Ma, Y. Qian, Ring-Opening Metathesis Polymerization of Dicyclopentadiene Catalyzed by Titanium Tetrachloride Adduct Complexes with Nitrogen-Containing Ligands, J. Appl. Polym. Sci, 2000, V. 77, № 14, p.3247–3251.
DOI: 10.1002/1097-4628(20000929)77:14<3247::aid-app290>3.0.co;2-e
Google Scholar
[10]
A.A. Lyapkov, E.I. Ionova, V.G. Bondaletov, A.A. Romanova, Polimerizacija diciklopentadiena pod dejstviem tetrahlorida titana, Izvestija tomskogo politehnicheskogo universiteta, 2009, V. 314, № 3, p.106–111.
Google Scholar
[11]
N.N. Kuznecov, E.I. Ionova, A.A. Lyapkov, V.G. Bondaletov, A.A. Manankova, Polimerizacija diciklopentadiena pod dejstviem kataliticheskih sistem na osnove TiCl4, Himicheskaja promyshlennost, 2009, V. 86, № 7, p.367–378.
Google Scholar
[12]
A.A. Lyapkov, V.G. Bondaletov, E.I. Ionova, A.V. Evdokimov, V. Ja. Tolmacheva, Zakonomernosti sooligomerizacii diciklopentadienovoj frakcii v prisutstvii tetrahlorida titana i dijetilaljuminijhlorida, Izvestija vuzov, Himija i himicheskaja tehnologija, 2009, V. 52, № 1, p.97.
Google Scholar
[13]
A. Vajsberger, D. Proskaujer, Organicheskie rastvoriteli,: Izd-vo inostr. lit-ry, Moscow 1958, 584.
Google Scholar
[14]
D. Vervacke, An introduction to PDCPD, Waarschoot: Product Rescue, 2008, 129.
Google Scholar
[15]
A.A. Manankova, V.G. Bondaletov, A.A. Lyapkov, A.S. Belousova, Issledovanie stadii dezaktivacii tetrahlorida titana v processe poluchenija neftepolimernyh smol, Polzunovskij vestnik, 2010, № 4, p.271–274.
Google Scholar
[16]
L.S. Polak, M. Ja. Goldenberg, A.A. Levickij, Vychislitelnye metody v himicheskoj kinetike, Nauka, Moscow, 1984, 280.
Google Scholar