Investigation of the thermooxidative degradation of copolymers of acrylonitrile and quaternary compounds of diethylaminoethyl methacrylate

Platonova, N. V.; Клименко, И. В.; Grachev, V.I.; Kiselev, G. A.

doi:10.1016/0032-3950(88)90334-6

Cited by 3 publications

(2 citation statements)

References 4 publications

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“…6,7,8 Considerable information exists in the literature on the use of comonomers other than carboxylic acids for the preparation of polyacrylonirile precursor fibers. 9 In the case of amino ethyl-2-methyl propenoate (AEMP), a lowering of the time of stabilization, a reduction in the thermal degradation, and a better control of heat flux during oxidative cyclization have been reported. To our knowledge, there are only few reports on the viscosity behavior of ordinary AN copolymer dilute solutions, but there is almost no report on rheological kinetics of the solutions of high molecular weight AN copolymer with AEMP as comonomer.…”

Section: Introductionmentioning

confidence: 99%

Rheological kinetics of acrylonitrile/amino ethyl‐2‐methyl propenoate copolymer solutions in dimethyl sulfoxide

Hou

et al. 2006

J of Applied Polymer Sci

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Viscosity behavior of dimethyl sulfoxide solutions of acrylonitrile (AN)/amino ethyl-2-methyl propenoate (AEMP) copolymer was discussed. Rheological kinetics of the solutions was studied in contrast. It is shown that the solutions behave the same as Newtonian flow as the rotor speed goes beyond 12 rpm. With an increase of temperature, the apparent viscosity of AN/AEMP copolymer solutions shows a trend of decrease. The changes of the apparent flow activation energy of solutions calculated by Arrhenius equation become less prominent along with the changes of the molecular weight of AN/AEMP copolymers. The apparent flow activation energy of the copolymer solutions increases continuously with an increase of copolymer concentration. The viscosity of copolymer solutions decreases continuously as the concentrations of KCl and NaCl up to 0.02 mol L Ϫ1 , and then it increases. the apparent flow-activation energy of AN/AEMP copolymer solutions shows an obvious trend of decrease with addition of alkali salts and the changes of the apparent flow-activation energy of solutions containing NaCl are more prominent than those of solutions containing KCl.

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Section: Introductionmentioning

confidence: 99%

Rheological kinetics of acrylonitrile/amino ethyl‐2‐methyl propenoate copolymer solutions in dimethyl sulfoxide

Hou

et al. 2006

J of Applied Polymer Sci

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“…Various carboxylic acids are used as comonomers to copolymerize with AN to obtain specialty fibers for various applications 9–12. Considerable information exists in the literature on the use of comonomers other than carboxylic acids for the preparation of polyacrylonitrile precursor fibers 13. In the case of amino ethyl‐2‐methyl propenoate (AEMP), a lowering of the time of stabilization, a reduction in the thermal degradation, and a better control of heat flux during oxidative cyclization have been reported.…”

Section: Introductionmentioning

confidence: 99%

Copolymerization kinetics of acrylonitrile with amino ethyl‐2‐methyl propenoate in H₂O/DMSO mixture

Hou

et al. 2006

J of Applied Polymer Sci

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Amino ethyl-2-methyl propenoate (AEMP) was used successfully to copolymerize with acrylonitrile (AN). This was achieved by using azobisisobutyronitrile as the initiator. Kinetics of copolymerization of AN with AEMP was investigated in H 2 O/dimethylsulfoxide (DMSO) mixture between 50 and 70°C under N 2 atmosphere. The rate of copolymerization was measured. The kinetic equation of copolymerization system was obtained and the overall activation energy for the copolymerization system was determined. Values of monomer apparent reactivity ratios were calculated using Kelen-Tudos method. It has been found that the apparent reactivity ratios in aqueous suspension polymerization system are similar to those in solution polymerization system at polymerization conversion less than 25%. At conversion beyond 45%, the changes of monomer apparent reactivity ratios become less prominent. In waterrich reaction medium (H 2 O/DMSO Ͼ 70/30), monomer apparent reactivity ratios are approximately equivalent to those in aqueous suspension polymerization system. In DMSO-rich reaction medium (DMSO/H 2 O Ͼ 70/30), apparent reactivity ratios are similar to those in solution polymerization system. With an increase of polarity of solvent, values of apparent reaction ratios both decrease.

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IR spectroscopic study in polarized light of a series of thermally treated nitrile polymers

Клименко

Platonova

Maiburov

1991

Polymer Science U.S.S.R.

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Investigation of the thermooxidative degradation of copolymers of acrylonitrile and quaternary compounds of diethylaminoethyl methacrylate

Cited by 3 publications

References 4 publications

Rheological kinetics of acrylonitrile/amino ethyl‐2‐methyl propenoate copolymer solutions in dimethyl sulfoxide

Rheological kinetics of acrylonitrile/amino ethyl‐2‐methyl propenoate copolymer solutions in dimethyl sulfoxide

Copolymerization kinetics of acrylonitrile with amino ethyl‐2‐methyl propenoate in H₂O/DMSO mixture

IR spectroscopic study in polarized light of a series of thermally treated nitrile polymers

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Investigation of the thermooxidative degradation of copolymers of acrylonitrile and quaternary compounds of diethylaminoethyl methacrylate

Cited by 3 publications

References 4 publications

Rheological kinetics of acrylonitrile/amino ethyl‐2‐methyl propenoate copolymer solutions in dimethyl sulfoxide

Rheological kinetics of acrylonitrile/amino ethyl‐2‐methyl propenoate copolymer solutions in dimethyl sulfoxide

Copolymerization kinetics of acrylonitrile with amino ethyl‐2‐methyl propenoate in H2O/DMSO mixture

IR spectroscopic study in polarized light of a series of thermally treated nitrile polymers

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Copolymerization kinetics of acrylonitrile with amino ethyl‐2‐methyl propenoate in H₂O/DMSO mixture