A Review of Modeling of Diffusion Controlled Polymerization Reactions

A plethora of models have been developed quantifying the effect of diffusion-controlled phenomena on polymerization reactions. The most prominent approaches are reviewed here, including innovative ones that have emerged over the last decade. Free-radical and step-growth polymerizations are considered in a way to show that similar models have been used in both mechanisms. In free-radical polymerization the models proposed are subdivided according to their theoretical background into four categories: (i) based on a Fickian description of reactant diffusion; (ii) free-volume theory based; (iii) chain-length dependent; and, (iv) empirical. The reversible addition-fragmentation technique is discussed, together with two industrially important case-studies, solid state polycondensation and epoxy-amine curing.

[1]  S. Gupta,et al.  Molecular model for solid‐state polymerization of nylon 6. II. An improved model , 1994 .

[2]  C. Kiparissides,et al.  Modeling of diffusion‐controlled free‐radical polymerization reactions , 1988 .

[3]  Albert Renken,et al.  Solution polymerization of methyl methacrylate at high conversion in a recycle tubular reactor , 1992 .

[4]  M. Dubé,et al.  Bulk and Solution Copolymerization of Butyl Acrylate/Methyl Methacrylate at Elevated Temperatures , 2002 .

[5]  A. Hamielec,et al.  Bulk thermal copolymerization of styrenep-methylstyrene: Modelling diffusion-controlled termination and propagation using free-volume theory , 1986 .

[6]  T. McKenna,et al.  The Solid State Postcondensation of PET, 1 , 2004 .

[7]  Tara M Lovestead,et al.  A modeling investigation of chain length dependent termination during multivinyl free radical chain photopolymerizations : Accounting for the gel , 2005 .

[8]  Fangbin Zhou,et al.  Modeling of the sheet-molding process for poly(methyl methacrylate) , 2001 .

[9]  K. Horie,et al.  Diffusion-Controlled Reactions in Polymer Systems , 1987 .

[10]  Yuan Tian,et al.  Modeling and optimal control of a batch polymerization reactor using a hybrid stacked recurrent neural network model , 2001 .

[11]  D. H. Napper,et al.  Kinetics of emulsion polymerization of methyl methacrylate , 1984 .

[12]  K. M. Jones,et al.  An investigation of the kinetics of copolymerization of methyl methacrylatep-methyl styrene to high conversion: Modelling diff″sion-controlled termination and propagation by free-volume theory , 1986 .

[13]  Xiaqin Wang,et al.  A comprehensive model for solid-state polycondensation of poly(ethylene terephthalate): Combining kinetics with crystallization and diffusion of acetaldehyde , 2002 .

[14]  Jun Xu,et al.  Monte Carlo simulation of diffusion effects on chain‐extension reactions , 2006 .

[15]  Alexander Penlidis,et al.  A Comprehensive Simulator/Database Package for Reviewing Free-Radical Homopolymerizations , 1996 .

[16]  C. Bamford Stationary and non-stationary processes in non-classical radical polymerization with size dependent termination , 1996 .

[17]  Gregory T. Russell On exact and approximate methods of calculating an overall termination rate coefficient from chain length dependent termination rate coefficients , 1994 .

[18]  S. Gupta,et al.  A molecular model for solid‐state polymerization of nylon 6 , 1992 .

[19]  J. L. Duda,et al.  Self-diffusion in polymer-solvent-solvent systems , 1984 .

[20]  C. Bamford Non-stationary states in free-radical polymerizations with size-dependent termination. Studies by the group-termination procedure—2. Pre-effects and systems with intermittent initiation , 1993 .

[21]  A. Bos,et al.  Modeling of Polymer Molecular Weight Distributions in Free-Radical Polymerization Reactions. Application to the Case of Polystyrene , 1997 .

[22]  B. Friedman,et al.  Kinetics of Intermolecular Reactions in Dilute Polymer Solutions and Unentangled Melts , 1993 .

[23]  S. Gupta,et al.  Bulk free radical polymerizations of methyl methacrylateunder non-isothermal conditions and with intermediate additionof initiator: Experiments and modeling , 2005 .

[24]  Dacheng Wu,et al.  Reaction Kinetics and Simulations for Solid-State Polymerization of Poly(ethylene terephthalate) , 1997 .

[25]  Pj Piet Lemstra,et al.  Solid-state polymerization of PET: influence of nitrogen sweep and high vacuum , 2003 .

[26]  Elaine Martin,et al.  Particle filters for state and parameter estimation in batch processes , 2005 .

[27]  T. Lodge,et al.  Monomer diffusion and the kinetics of methyl methacrylate radical polymerization at intermediate to high conversion , 1994 .

[28]  Gregory T. Russell,et al.  Modeling of termination in intermediate and high conversion free radical polymerizations , 1994 .

[29]  G. Oshanin,et al.  Influence of transport limitations on the kinetics of homopolymerization reactions , 1995 .

[30]  Zhanjun Wu,et al.  Cure kinetics of epoxy resin used for advanced composites , 2004 .

[31]  Leo Radom,et al.  A Priori Prediction of Propagation Rate Coefficients in Free-Radical Polymerizations: Propagation of Ethylene , 1995 .

[32]  C. Bamford Non-steady states in free radical polymerizations with size-dependent termination: A study using the group-termination coefficient procedure , 1991 .

[33]  George D. Verros,et al.  Development of a unified framework for calculating molecular weight distribution in diffusion controlled free radical bulk homo-polymerization , 2005 .

[34]  S. Benson,et al.  A Simple Dilatometric Method of Determining the Rate Constants of Chain Reactions. II. The Effect of Viscosity on the Rate Constants of Polymerization Reactions1 , 1959 .

[35]  S. Gupta,et al.  Free Radical Polymerizations Associated with the Trommsdorff Effect under Semibatch Reactor Conditions: An Improved Model , 1995 .

[36]  M. Morbidelli,et al.  The reaction locus in supercritical carbon dioxide dispersion polymerization. The case of poly(methyl methacrylate) , 2005 .

[37]  Costas Kiparissides,et al.  On the validity of the steady-state approximations in high conversion diffusion-controlled free-radical copolymerization reactions , 1994 .

[38]  Gregory T. Russell The kinetics of free radical polymerizing systems at low conversion, 3. On the variation of the termination rate coefficient with monomer and with temperature , 1995 .

[39]  C. Bamford The “group-termination coefficient” in the analysis of kinetic schemes of polymerizations with size-dependent termination coefficients , 1989 .

[40]  Kwang-Woo Choi,et al.  Photopolymerization Kinetics of Methacrylate Dental Resins , 2003 .

[41]  M. Buback,et al.  Modeling termination kinetics in free-radical polymerization using a reduced number of parameters , 1999 .

[42]  C. Barner‐Kowollik,et al.  Modeling termination kinetics of non-stationary free-radical polymerizations , 2001 .

[43]  Zheng Zhang,et al.  Modeling of the bulk free radical polymerization up to high conversion—three stage polymerization model. II. Number-average molecular weight and apparent initiator efficiency , 2002 .

[44]  Hadi Khan Mahabadi,et al.  Effects of chain length dependence of termination rate constant on the kinetics of free-radical polymerization. 1. Evaluation of an analytical expression relating the apparent rate constant of termination to the number-average degree of polymerization , 1985 .

[45]  A. J. Morris,et al.  Online optimizing control of molecular weight properties in batch free-radical polymerization reactors , 2002 .

[46]  H. Flammersheim,et al.  Formal kinetic evaluation of reactions with partial diffusion control , 1999 .

[47]  Costas Kiparissides,et al.  Development of a General Mathematical Framework for Modeling Diffusion-Controlled Free-Radical Polymerization Reactions , 1992 .

[48]  Us Uday Agarwal,et al.  Solvent assisted post-polymerization of PET , 2005 .

[49]  Thomas P. Davis,et al.  Critically Evaluated Rate Coefficients for Free-Radical Polymerization, 4†‡ , 2003 .

[50]  Gregory T. Russell,et al.  Diffusion-controlled copolymerization kinetics , 1993 .

[51]  J. Torkelson,et al.  A critical experimental examination of the gel effect in free radical polymerization: Do entanglements cause autoacceleration? , 1996 .

[52]  Takeshi Fukuda,et al.  Critically evaluated termination rate coefficients for free-radical polymerization: Experimental methods , 2005 .

[53]  Robert G. Gilbert,et al.  Critically evaluated termination rate coefficients for free-radical polymerization, 1. The current situation , 2002 .

[54]  J. Macgregor,et al.  Bulk copolymerization of styrene and acrylonitrile: Experimental kinetics and mathematical modelling , 1985 .

[55]  G. Zifferer,et al.  The Influence of Chain Length‐Dependent Propagation on the Evaluation of the Chain Length Dependence of the Rate Coefficient of Bimolecular Termination, 1. PLP–SEC Methods , 2001 .

[56]  The Kinetic Modeling of a Bulk Diallylterephthalate Polymerization , 2003 .

[57]  J. Torkelson,et al.  Modeling Insight into the Diffusion-Limited Cause of the Gel Effect in Free Radical Polymerization , 1999 .

[58]  M. Morbidelli,et al.  Detailed modelling of MMA dispersion polymerization in supercritical carbon dioxide , 2005 .

[59]  Gregory T. Russell,et al.  New paradigms in free-radical polymerization kinetics , 2005 .

[60]  R. Smith,et al.  Catalysed Polymerization of Methyl Methacrylate in the Liquid Phase , 1942, Nature.

[61]  S. K. Soh,et al.  Diffusion‐controlled vinyl polymerization. II. Limitations on the gel effect , 1982 .

[62]  P. Zetterlund,et al.  Free Radical Bulk Polymerization of Styrene: Simulation of Molecular Weight Distributions to High Conversion Using Experimentally Obtained Rate Coefficients , 2003 .

[63]  T. Lodge,et al.  Comparison between Polymer Diffusion and Chain Radical Termination Kinetics: The Importance of Polydispersity , 1994 .

[64]  M. Buback Free‐radical polymerization up to high conversion. A general kinetic treatment , 1990 .

[65]  D. H. Napper,et al.  Termination in free-radical polymerizing systems at high conversion , 1988 .

[66]  W. Harmon Ray,et al.  Modeling of solid‐state polycondensation. I. Particle models , 1998 .

[67]  Shiping Zhu,et al.  Radical concentrations in free radical copolymerization of MMA/EGDMA , 1990 .

[68]  G. Meyerhoff,et al.  Radikalpolymerisation von methylmethacrylat im gesamten umsatzbereich. Stationäre und instationäre experimente zur bestimmung von wachstums‐ und abbruchsgeschwindigkeit , 1989 .

[69]  I. M. Yaraskavitch,et al.  An investigation of the kinetics of copolymerization of p-methylstyreneacrylonitrile to high conversion: Modelling diffusion-controlled termination and propagation by free-volume theory , 1987 .

[70]  Jun Xu,et al.  Study diffusion effects on chain extension reactions based on the reptation theory , 2006 .

[71]  Krzysztof Matyjaszewski,et al.  Handbook of radical polymerization , 2002 .

[72]  D. H. Napper,et al.  Chain-length-dependent termination rate processes in free-radical polymerizations. 2. Modeling methodology and application to methyl methacrylate emulsion polymerizations , 1993 .

[73]  G. Assche,et al.  Reaction Kinetics Modeling and Thermal Properties of Epoxy-Amines as Measured by Modulated-Temperature DSC. II. Network-Forming DGEBA MDA , 2004 .

[74]  A. V. van Herk,et al.  BIMOLECULAR FREE-RADICAL TERMINATION AT LOW CONVERSION , 2001 .

[75]  Costas Kiparissides,et al.  Development of a Comprehensive Model for Diffusion-Controlled Free-Radical Copolymerization Reactions , 2002 .

[76]  Shiping Zhu,et al.  Radical trapping and termination in free-radical polymerization of methyl methacrylate , 1990 .

[77]  David S. Soong,et al.  Modeling the free radical solution and bulk polymerization of methyl methacrylate , 1985 .

[78]  Lei Li,et al.  Simulation of solid‐state polycondensation of nylon‐66 , 2000 .

[79]  Yi He,et al.  Chemical and diffusion-controlled curing kinetics of an underfill material , 2005, Microelectron. Reliab..

[80]  D. H. Napper,et al.  Chain-length-dependent termination rate processes in free-radical polymerizations. 1. Theory , 1992 .

[81]  Deoki N. Saraf,et al.  On-line optimizing control of bulk polymerization of methyl methacrylate: Some experimental results for heater failure , 2002 .

[82]  A. Mau,et al.  Evaluation of the kinetic-parameters for styrene polymerization and their chain-length dependence by kinetic simulation and pulsed-laser photolysis , 1993 .

[83]  D. Soong,et al.  Major factors contributing to the nonlinear kinetics of free-radical polymerization , 1985 .

[84]  Gregory T. Russell The kinetics of free radical polymerizing systems at low conversion, 2. On the influence of the monomer and initiator concentrations , 1995 .

[85]  P. Lagally,et al.  Zur polymerisation des methacrylsäuremethylesters1 , 1948 .

[86]  Gregory T. Russell,et al.  The effects of chain length dependent propagation and termination on the kinetics of free-radical polymerization at low chain lengths , 2005 .

[87]  Nuno M.C. Oliveira,et al.  Optimization and nonlinear Model Predictive Control of batch polymerization systems , 2002 .

[88]  Deoki N. Saraf,et al.  Free radical polymerizations associated with the trommsdorff effect under semibatch reactor conditions. I: Modeling , 1995 .

[89]  Gary W. Poehlein,et al.  A kinetic model for curing reactions of epoxides with amines , 1987 .

[90]  S. Curteanu A comparative description of diffusion-controlled reaction models in free radical polymerization , 2003 .

[91]  Gregory T. Russell,et al.  The nature of the chain-length dependence of the propagation rate coefficient and its effect on the kinetics of free-radical polymerization. 1. Small-molecule studies , 2006 .

[92]  Jie Zhang,et al.  A Reliable Neural Network Model Based Optimal Control Strategy for a Batch Polymerization Reactor , 2004 .

[93]  C. Bowman,et al.  Reaction Diffusion Enhanced Termination in Polymerizations of Multifunctional Monomers , 1993 .

[94]  J. Xie Kinetics and Simulation of Solid-State Polymerization for Nylon 6 , 2001 .

[95]  Costas Kiparissides,et al.  Dynamic Simulation of Industrial Poly(vinyl chloride) Batch Suspension Polymerization Reactors , 1997 .

[96]  H. K. Mahabadi Effect of chain-length dependence of termination rate constant on the kinetics of free-radical polymerization. 2. Evaluation of an analytical expression for the rate of polymerization , 1991 .

[97]  Wenping Guo,et al.  Modeling of the bulk free radical polymerization up to high conversion—three stage polymerization model I. Model examination and apparent reaction rate constants , 2002 .

[98]  Vishak Sampath,et al.  Robust nonlinear control of polymethylmethacrylate production in a batch reactor , 1998 .

[99]  G. Caneba,et al.  FREE-RADICAL RETROGRADE-PRECIPITATION POLYMERIZATION: A MATHEMATICAL MODELING STUDY OF POLYMERIZATION OF STYRENE IN DIETHYL ETHER , 2004 .

[100]  D. Panke Modelling the free-radical polymerization of methyl methacrylate over the complete range of conversion , 1995 .

[101]  Deoki N. Saraf,et al.  Use of agitator power as a soft sensor for bulk free-radical polymerization of methyl methacrylate in batch reactors , 2006 .

[102]  R. Mashelkar,et al.  Modelling of polyethylene terephthalate reactors—X. A comprehensive model for solid-state polycondensation process , 1993 .

[103]  M. Buback,et al.  Termination Kinetics of tert‐Butyl Methacrylate and of n‐Butyl Methacrylate Free‐Radical Bulk Homopolymerizations , 2006 .

[104]  E. Andrzejewska Photopolymerization kinetics of multifunctional monomers , 2001 .

[105]  J. Terrisse,et al.  Experimental study and simulation of the polymerization of methyl methacrylate at high temperature in a continuous reactor , 2001 .

[106]  R. Pollard,et al.  Modeling of Diffusion Effects on Step-Growth Polymerizations , 2005 .

[107]  A. Renken,et al.  Modeling of the free radical polymerization of methylmethacrylate up to high temperature , 1998 .

[108]  M. Al‐harthi,et al.  Modeling of Atom Transfer Radical Polymerization with Bifunctional Initiators: Diffusion Effects and Case Studies , 2006 .

[109]  M. Buback,et al.  Termination kinetics in free‐radical bulk terpolymerization — the systems methyl acrylate – butyl acrylate – dodecyl acrylate and methyl methacrylate – butyl methacrylate – dodecyl methacrylate , 1999 .

[110]  Alexander Penlidis,et al.  Simulation of Free Radical Bulk/Solution Homopolymerization Using Mono- and Bi-functional Initiators , 2000 .

[111]  Xiongwei Qu,et al.  Curing Kinetics of Diglycidyl Ether of Bisphenol A and Diaminodiphenylmethane Using a Mechanistic Model , 2006 .

[112]  Gregory T. Russell,et al.  Initiator efficiencies in 2,2′-azoisobutyronitrile-initiated free-radical polymerizations of styrene , 1994 .

[113]  Yuan Tian,et al.  Dynamic On‐Line Reoptimization Control of a Batch MMA Polymerization Reactor Using Hybrid Neural Network Models , 2004 .

[114]  A. North The collision theory of chemical reactions in liquids , 1964 .

[115]  M. Dubé,et al.  A kinetic investigation of butyl acrylate polymerization , 1991 .

[116]  W. Cook,et al.  Chemico-diffusion kinetics of model epoxy-amine resins , 1997 .

[117]  C. Kiparissides,et al.  A Comprehensive Kinetic Model for the Free-Radical Polymerization of Vinyl Chloride in the Presence of Monofunctional and Bifunctional Initiators , 2004 .

[118]  J. S. Vrentas,et al.  Solvent self-diffusion in rubbery polymer-solvent systems , 1994 .

[119]  Gregory T. Russell The kinetics of free radical polymerizing systems at low conversion, 1. On the rate determining step of the bimolecular termination reaction† , 1995 .

[120]  J. Y. Lee,et al.  Curing characteristics of epoxy resin systems that include a biphenyl moiety , 2002 .

[121]  David S. Soong,et al.  A computer model for the gel effect in free-radical polymerization , 1983 .

[122]  Klaas R. Westerterp,et al.  Modeling of free radical polymerization up to high conversion. II. Development of a mathematical model. , 1997 .

[123]  D. Achilias,et al.  Cure kinetics of epoxy-amine resins used in the restoration of works of art from glass or ceramic , 2006 .

[124]  M. Buback,et al.  Chain-Length Dependence of Termination Rate Coefficients in Acrylate and Methacrylate Homopolymerizations Investigated via the SP−PLP Technique , 2004 .

[125]  P. J. Pomery,et al.  Kinetic parameters for polymerization of methyl methacrylate at 60°C , 1992 .

[126]  Gregory T. Russell,et al.  Termination in Dilute‐Solution Free‐Radical Polymerization: A Composite Model , 2003 .

[127]  S. Curteanu,et al.  Free radical polymerization of methyl methacrylate : Modeling and simulation under semibatch and nonisothermal reactor conditions , 1999 .

[128]  Ben Duh Semiempirical rate equation for solid state polymerization of poly(ethylene terephthalate) , 2002 .

[129]  B. O’Shaughnessy,et al.  Autoacceleration in Free Radical Polymerization. 1. Conversion , 1994 .

[130]  S. Curteanu,et al.  Modeling of free radical polymerization of styrene using a binary mixture of initiators and isothermal steps of temperature , 2003 .

[131]  G. Zifferer,et al.  Termination processes in free radical polymerization. 8. Complete treatment of a kinetic scheme comprising chain length dependent termination in terms of closed and approximate closed expressions based on the geometric mean assumption , 1987 .

[132]  R. Hutchinson Modeling of Free-Radical Polymerization Kinetics with Crosslinking for Methyl Methacrylate/Ethylene Glycol Dimethacrylate , 1993 .

[133]  G. Assche,et al.  Modeling and experimental verification of the kinetics of reacting polymer systems , 2002 .

[134]  Pastor Rivero,et al.  Calculation method of molecular weight averages in polymerization with chain-length-dependent termination , 2005 .

[135]  X. Zhu,et al.  Physical models of diffusion for polymer solutions, gels and solids , 1999 .

[136]  M. Buback,et al.  Termination kinetics of free‐radical polymerization of styrene over an extended temperature and pressure range , 1997 .

[137]  G. Zifferer,et al.  Chain length dependence of Chain propagation revisited , 2005 .

[138]  S. Gupta,et al.  Effect of segmental diffusion on irreversible, step growth polymerizations of ARB monomers , 1987 .

[139]  Klaas R. Westerterp,et al.  Modeling of free radical polymerization up to high conversion. I. A method for the selection of models by simultaneous parameter estimation , 1997 .

[140]  Deoki N. Saraf,et al.  Use of genetic algorithms in the optimization of free radical polymerizations exhibiting the Trommsdorff effect , 1997 .

[141]  G. Zifferer,et al.  Is the rate constant of chain propagation kp in radical polymerization really chain-length independent ? , 2000 .

[142]  Chang-Kwon Kang,et al.  Modeling of solid‐state polymerization of poly(ethylene terephthalate) , 1998 .

[143]  John M. Torkelson,et al.  An Evaluation of Free Volume Approaches to Describe the Gel Effect in Free Radical Polymerization , 1998 .

[144]  P. J. Pomery,et al.  High-conversion free-radical bulk polymerization of styrene : Termination kinetics studied by electron spin resonance, Fourier transform near-infrared spectroscopy, and gel permeation chromatography , 2001 .

[145]  P. Armitage,et al.  Bulk polymerization of methyl methacrylate: Part I: some kinetic and modelling considerations for isothermal reactions , 1988 .

[146]  Ajay K. Ray,et al.  Multiobjective optimization of the continuous casting process for poly (methyl methacrylate) using adapted genetic algorithm , 2000 .

[147]  Alexander Penlidis,et al.  Mathematical Modeling of Multicomponent Chain-Growth Polymerizations in Batch, Semibatch, and Continuous Reactors: A Review , 1997 .

[148]  Alexander Penlidis,et al.  Modelling of free radical polymerization of styrene and methyl methacrylate by a tetrafunctional initiator , 2006 .

[149]  Philip E. Wood,et al.  Auto-Acceleration Effect in Free Radical Polymerization. A Comparison of the CCS and MH Models , 1994 .

[150]  D. Achilias,et al.  Kinetics of the Benzoyl Peroxide/Amine Initiated Free-Radical Polymerization of Dental Dimethacrylate Monomers: Experimental Studies and Mathematical Modeling for TEGDMA and Bis-EMA , 2004 .

[151]  A. Rougé,et al.  Kinetic modeling of free radical polymerization of styrene initiated by the bifunctional initiator 2,5-dimethyl-2,5-bis(2-ethyl hexanoyl peroxy) hexane , 2000 .

[152]  A. Butté,et al.  Modeling of Diffusion Limitations in Bulk RAFT Polymerization , 2006 .

[153]  C. Macosko,et al.  Monte Carlo description of Af homopolymerization: Diffusional effects , 1991 .

[154]  José M. Asua,et al.  Critically Evaluated Rate Coefficients for Free‐Radical Polymerization, 5, , 2004 .

[155]  Deoki N. Saraf,et al.  Free radical polymerizations associated with the trommsdorff effect under semibatch reactor conditions. II: Experimental responses to step changes in temperature , 1996 .

[156]  S. Gupta,et al.  Viscosity of bulk free radical polymerizing systems under near-isothermal and non-isothermal conditions , 2006 .

[157]  M. Buback,et al.  Free-Radical Termination Kinetics Studied Using a Novel SP-PLP-ESR Technique , 2004 .

[158]  S. Curteanu Modeling and simulation of methyl methacrylate free radical polymerization with intermediate addition of initiator and step change of temperature , 2003 .

[159]  V. Schulz,et al.  Über den mechanismus des explosiven polymerisationsverlaufes des methacrylsäuremethylesters1 , 1947 .

[160]  J. Fournier,et al.  Changes in molecular dynamics during bulk polymerization of an epoxide-amine system as studied by dielectric relaxation spectroscopy , 1996 .

[161]  K. Cole,et al.  A new approach to modeling the cure kinetics of epoxy/amine thermosetting resins. 2. Application to a typical system based on bis[4-(diglycidylamino)phenyl]methane and bis(4-aminophenyl) sulfone , 1991 .

[162]  P. G. de Gennes,et al.  Kinetics of diffusion‐controlled processes in dense polymer systems. I. Nonentangled regimes , 1982 .

[163]  Dimitrios J. Giliopoulos,et al.  Effect of activated carbon black nanoparticles on solid state polymerization of poly(ethylene terephthalate) , 2006 .

[164]  Sabine Beuermann,et al.  Rate coefficients of free-radical polymerization deduced from pulsed laser experiments , 2002 .

[165]  Thomas P. Davis,et al.  Critically evaluated rate coefficients for free‐radical polymerization, 2.. Propagation rate coefficients for methyl methacrylate , 2000 .

[166]  J. L. Duda,et al.  Diffusion in polymer—solvent systems. I. Reexamination of the free‐volume theory , 1977 .

[167]  Shiping Zhu,et al.  Effects of diffusion‐controlled reactions on atom‐transfer radical polymerization , 2002 .

[168]  Jia-cong Shen,et al.  Modelling and kinetic study on radical polymerization of methyl methacrylate in bulk, 1. Propagation and termination rate coefficients and initiation efficiency , 1991 .

[169]  Y. Yeo,et al.  Modeling of a Solid-State Polycondensation Process for the Production of PET , 2003 .

[170]  M. Morbidelli,et al.  Gel effect in the bulk reversible addition–fragmentation chain transfer polymerization of methyl methacrylate: Modeling and experiments , 2006 .

[171]  Vivek Dua,et al.  Free‐radical polymerizations associated with the trommsdorff effect under semibatch reactor conditions. III. Experimental responses to step changes in initiator concentration , 1996 .

[172]  Philipp Vana,et al.  Chain length dependent propagation rate coefficient kp in pulsed-laser polymerization: Variation with temperature in the bulk polymerization of styrene and methyl methacrylate , 2002 .

[173]  G. Zifferer,et al.  Termination processes, in free radical polymerization—7: The treatment of chain length dependent termination in presence of chain transfer , 1986 .

[174]  Shiping Zhu,et al.  Effects of Diffusion‐Controlled Radical Reactions on RAFT Polymerization , 2003 .

[175]  S. Benson,et al.  The Kinetics of Free Radical Polymerization under Conditions of Diffusion-controlled Termination , 1962 .

[176]  G. Moad,et al.  Chain Length Dependence of Radical−Radical Termination in Free Radical Polymerization: A Pulsed Laser Photolysis Investigation , 2003 .