Free‐radical bulk polymerization of styrene with a new trifunctional cyclic peroxide initiator

Wang, Sheng; Jian-yi, WU; Shan, Guorong; Huang, Zhiming; Wang, Zhixue

doi:10.1002/app.20937

Cited by 20 publications

(22 citation statements)

References 30 publications

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“…The kinetic data obtained in this work, and other results previously described by various authors for different cyclic peroxides (Cafferata et al, 1984;Cafferata et al, 1990;Cafferata et al, 1991;Eyler et al, 1994;Eyler et al, 2000;Barreto and Cañizo, 2004;Sheng et al, 2004;Cañizo, 2006;Iglesias et al, 2009), allowed to associate the rate constants with the unimolecular rupture process of one peroxidic bond as the rate-determining step of the decomposition route (Scheme 2).…”

Section: Kinetic Studiesmentioning

confidence: 86%

“…Cyclic organic peroxides, belonging to the 1,2,4,5-tetraoxacyclohexanes and 1,2,4,5,7,8-hexaoxacyclononanes substituted families have gained great importance over the last years due to their reactivity and particular behavior in different polymeric systems (Cerna et al, 2002;Sheng et al, 2004;Cañizo, 2006;Tasca et al, 2012;Nesprias et al, 2013;Barreto et al, 2014). These authors proposed the homolytic cleavage of the O-O bond during the decomposition process of these compounds, generating a biradical intermediate, which can act as an initiator in the free radical polymerization of vinyl monomers.…”

Section: Introductionmentioning

confidence: 99%

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Effect of ionic liquid on the thermal decomposition of cyclic organic peroxides

Barreto

Rodríguez

Morales

et al. 2019

Arabian Journal of Chemistry

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The thermolysis of cyclic diethylketone triperoxide (3,3,6,6,9,2,4,5,7, DEKTP) and cyclic pinacolone diperoxide (3,6-diterbutyl-3,6-dimethyl-1,2,4,5-tetraoxacyclohexane , PDP) were studied in neat N,N-dimetyhlformamide (DMF) and in binary mixtures DMF/Ionic Liquid (1-butyl-3-methylimidazolium tetrafluoroborate, [BMIM + ][BF 4 -]). The activation parameters for the decomposition of both peroxides in DMF, correspond to a process of homolytic cleavage of one O-O bond, generating a biradical in the initial step of radical mechanism. The rate constant values (k d ) are higher for reactions performed in mixtures. A gradual increase of [BMIM + ][BF 4 -]in the reaction media generate higher k d for both peroxides (i. e. k d, DEKTP in DMF/[BMIM + ][BF 4 -] 4.0 mol L -1 is 3.3 times greater than the k d obtained for the mixture with a concentration 1.0 mol L -1 , under the same experimental conditions). The increase in decomposition rate can be associated to a more solvated and stabilized transition state when the ionic liquid is part of the reaction medium.

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Section: Kinetic Studiesmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Effect of ionic liquid on the thermal decomposition of cyclic organic peroxides

Barreto

Rodríguez

Morales

et al. 2019

Arabian Journal of Chemistry

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“…Since the second half of the 1980 s, several experimental studies and mathematical models regarding the use of multifunctional free radical initiators have been reported, mostly related to the production of poly(styrene) (PS), poly(methyl methacrylate) (PMMA), poly(vinyl acetate) (PVAc), and styrene/methacrylate copolymers . In most cases, polymerizations have been performed in bulk or solution processes.…”

Section: Introductionmentioning

confidence: 99%

“…The main factor that has prevented the widespread use of bifunctional initiators in vinyl chloride polymerization processes is the low rate of thermal decomposition of most commercially available initiators at the feasible PVC process temperatures (40–60 °C). The vast majority of commercial multifunctional peroxides are used at reaction temperatures above 90 °C . The lack of further studies regarding the use of multifunctional initiators in vinyl chloride free radical polymerizations is very intriguing, since the available results highlighted the potential benefits of using multifunctional initiators in PVC processes.…”

Section: Introductionmentioning

confidence: 99%

Mathematical Modeling of Molecular Weight Distributions in Vinyl Chloride Suspension Polymerizations Performed with a Bifunctional Initiator through Probability Generating Functions

Castor

Sarmoria

Asteasuain

et al. 2014

Macro Theory & Simulations

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This paper presents a mathematical model to describe the evolution of the molecular weight distribution (MWD) in vinyl chloride (VCM) free‐radical suspension polymerizations performed with a bifunctional initiator, 1,3‐di(2‐neodecanoylperoxyisopropyl) (DIPND). The model yields, as a function of time, the mass balances for the distinct phases, the monomer conversion, the number‐ and mass‐average molecular weights and the complete MWD of both the growing and dead polymer chains. In order to describe the MWD, the model uses probability generating functions (pgf) to transform the mass balance equations into a reduced and finite set of model equations. As shown throughout many examples, the MWD's of the final polymer resin is little sensitive to the presence of the linear symmetrical bifunctional initiator.

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“…Recently, cyclic multifunctional initiators have been investigated in free radical polymerizations 26,27. During polymerization, the decomposition of one labile group opens the ring to form a linear di‐radical chain as shown in Figure 2.…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in the Study of Multifunctional Initiators in Free Radical Polymerizations

Scorah

Dhib

Penlidis

2007

Macro Reaction Engineering

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An overview of a systematic investigation of a tetrafunctional peroxide initiator's behaviour is presented. The study focuses on three main areas of research: kinetic experiments, polymer characterization and modelling efforts. The kinetic investigation compared the behaviour of the tetrafunctional initiator (JWEB50) to that of a monofunctional counterpart (TBEC) for a variety of monomers. Although higher rates of polymerization were generated with JWEB50 for all monomers investigated, switching from a mono‐ to a tetrafunctional initiator actually decreased the polymer molecular weight for methyl methacrylate. While chromatographic characterization methods were able to detect branching in polystyrene samples produced with JWEB50, this was not the case for poly(methyl methacrylate). However, evidence of branching was clearly observed for both polystyrene and PMMA when rheological methods were employed. In order to explain the experimental results, a mathematical model was developed. Through its use, the concentration and chain length of various polymer structures (i.e., linear, star or coupled stars) was found to depend upon monomer type and reaction conditions.

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Free‐radical bulk polymerization of styrene with a new trifunctional cyclic peroxide initiator

Cited by 20 publications

References 30 publications

Effect of ionic liquid on the thermal decomposition of cyclic organic peroxides

Effect of ionic liquid on the thermal decomposition of cyclic organic peroxides

Mathematical Modeling of Molecular Weight Distributions in Vinyl Chloride Suspension Polymerizations Performed with a Bifunctional Initiator through Probability Generating Functions

Recent Advances in the Study of Multifunctional Initiators in Free Radical Polymerizations

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