It is the chain growth specific reaction rate that was determined for the process of methyl methacrylate mass radical polymerization within the temperature range of 40–900 С in quasi-steady approximation by means of Monte Carlo method. The theoretical model of radical polymerization was developed taking the gel effect into account. Computer software was developed that enables to imitate radical polymerization process taking gel effect into account within the minimum run time. The programme was tested on asymptotic examples as well as was applied for methyl methacrylate mass radical polymerization. The programme makes it possible to calculate monomer conversion, molecular mass variation, molecular-mass distribution, etc.

chain growth specific reaction rate; gel effect; methyl methacrylate; Monte Carlo method; mass radical polymerization

Bain E.D., Turgman-Cohen S., Genzer J. Progress in computer simulation of bulk, confined, and surface-initiated polymerizations. Macromol. Theory Simul., 2013, v. 22, рp. 8–30.

Yanborisov V.M., Yanborisov E.V., Spivak S.I. Algorithm of Modeling Ziegler-Natta Polymerization taking account of change of Catalyst Activity. Mathem. mod., 2010, v. 22, №3, рp. 15–25.

Yanborisov VM., Yanborisov E.V., Spivak S.I., Ziganshina A.S., Ulitin N.V. The evolution of the molecular weight distribution of polydienes during polymerization on polycenter catalysts of the Ziegler-Natta. Herald of Kazan State Technological University, 2014, v.17, №4, рp. 155–158.

Drache M., Drache G. Simulating controlled radical polymerizations with mcPolymer – A Monte Carlo approach. Polymers, 2012, v. 4, pр. 1416–1442.

Trommsdorff E., Kohle H., Lagally P. Zur Polymerisation des Methacrylsiiuremethylesters. J. Macromol. Chem. and Physics, 1948, v. 1, № 3, рp. 169–196.

Gladyshev G.P., Popov V.A. Radical polymerization at high degrees of conversion. Nauka (Science, in Rus.), Moscow, 1974. P. 244.

Brooks B.W. Viscosity Effects in the Free-Radical Polymerization of Methyl Methacrylate. Proc. R. Soc. Lond., 1977, v. 357, № A, рp. 183–192.

Hui A.W., Hamielec A.E. Thermal polymerization of styrene at high conversions and temperatures. An experimental study. J. Appl. Polym. Sci., 1972, v. 16, рp. 749–469.

Bagdasar’yan Kh.S. Theory of free-radical polymerization. Jerusalem: Israel Program for Scientific Translations, Hartford, Conn., D. Davey, 1968. P. 328.

Mahabadi H.K., O’Driscoll K.F. Absolute rate constants in free-radical polymerization. J. Macromol. Sci. Chem., 1977, v. 11 № A, № 5, pр. 967–976.

Tefera N., Weickert G., Westerterp K. R. Modeling of free radical polymerization up to high conversion: 2. Development of a mathematical model. J. Appl. Polym. Sci., 1997, v. 63, № 12, рp. 1663–1680.

Brandrup J., Immergut E. H., Grulke E. A. Polymer handbook, fourth edition. John Wiley &Sons. Inc., 1999. P. 2366.

Nagy A., Fоldes-Berezsnich T., Tudos F. Kinetics of Radical Polymerization-XLIII investigation of the polymerization of Methyl Acrylate in solution by the rotating sector method. J. Eur. Polym., 1984, v. 20, № 1, рp. 25–29.

Mahabadi H.K., O’Driscoll K.F. Spatially Intermittent Polymerization. J. of Polym. Sci., 1976, v. 14, рp. 869–881.

Chiu W.Y, Carratt G.M., Soong D.S. A Computer model for the Gel Effect in free-radical polymerization. Macromolecules, 1983, v. 16, pр. 348–357.

Kiparissides C., Achilias D. Modeling of diffusion-controlled free – radical polymerization reactions. J. Appl. Polym. Sci., 1988, v. 35, рp. 1303–1323.

Emanuel N.M., Kuzimina M.G. Experimental methods of chemical kinetics/ University of Moscow, Moscow, 1985. P. 384.

Willemse R.X.E. New Insights into Free-Radical (Co)Polymerization Kinetics. Technische Universiteit Eindhoven, Eindhoven, 2005. P. 160.

Hutchinson R.A., Aronson M.T., Richards J.R. Analysis of Pulsed-Laser-Generated Molecular Weight Distributions for the Determination of Propagation Rate Coefficients. J. Macromol., 1993, v. 26, рp. 6410–6415.

Fenouillot F., Terrisse J., Rimlinger T. Polymerization of methyl methacrylate at high temperature with 1-butanethiol as chain transfer agent. J. Appl. Polym. Sci., 1999, v. 72, №12, рp. 1589–1599.

Bamford C.H., Barb W.G., Jenkins A.D., Onyon. P.F. The kinetics of vinyl polymerization by radical mechanisms. Butterworths scientific publication, 1958, рp. 103–117.

Tobolsky A.V., Baysal B. A Review of Rates of Initiation in Vinyl Polymerization: Styrene and Methyl Methacrylate. Polym. Sci., 1953, v. 11, № 5, рp. 471–486.

Gladyshev G.P., Gibov K.M. Polymerization at high degrees of conversion and methods of research. Alma-Ata: Nauka (Science, in Rus.), 1968. P. 142.

Ito K. Estimation of Molecular Weight in Terms of the Gel Effect in Radical Polymerization. J. Polymer, 1980, v. 12, рp. 499–506.

Marten, F.L., Hamielec A.E., High conversion diffusion-controlled polymerization. ACS Symp. Ser., 1979, v. 104, рp. 43–70.

Balke S.T., Hamielec A. E. Bulk Polymerization of Methyl Methacrylate. J. Appl. Polym. Sci., 1973, v. 17, рp. 905–949.

O’Neil G.A., Wisnudel M.B., Torkelson J.M. An Evaluation of Free Volume Approaches to Describe the Gel Effect in Free Radical Polymerization. Macromol., 1998, v.31, №3, pр. 4537–4545.

Stickler M., Panke D. Polymerization of Methyl Methacrylate up to High Degrees of Conversion: Experimental Investigation of the Diffusion-Controlled Polymerization. J. Polym. Sci., 1984, v. 22, pр. 2243–2253.

Carswell T.G., Hill D.J.T., Londero D.I., O’Donnell J.H., Pomery P.J., Winzor C.L. Kinetic parameters for polymerization of methyl methacrylate at 60°C. Polymer., 1992, v. 33, № 1, рp. 137–140.

Yanborisov V.M., Sultanova A.A., Kolesov S.V. Sistemy upravleniya i informatsionnye tekhnologii, 2015, V. 62, №4, рp. 24–30.

Yanborisov V.M., Sultanova A.A., Kolesov S.V. Informatsionnye tekhnologii modelirovaniya i upravleniya, 2015, V. 95, №5, рp. 418–428.

Kolesov S.V., Shiyan D.A., Yanborisov V.M., Burakova A.O., Tereshchenco K.A., Ulitin N.V., Zaikov G.E. Description of Radical Polymerization kinetics of methyl methacrylate with consideration of Autoacceleration. Journal of Characterization and Development of Novel Materials, 2015, V. 7, рр. 1–9.

Vrentas J.S. Review of the applications of free volume theory for diffusion in polymers. Polym. Rev., 1981, v. 15, рp. 136–138.

Fleury P.-A., Meyer Th., Renken A. Solution polymerization of methyl-methacrylate at high conversion in a recycle tubular reactor. Chemical Engineering Science, 1992, v. 47, №. 9, рp. 2597–2602.

Nising P., Meyer T. Mathematical-modeling of polymerization kinetics at high monomer conversions a critical-review. Plaste Kautsch., 1986, v. 33, №8, рp. 281–285.