Study on degradation reactions in polyethylene terephthalate containing 5‐sulpho isophthalyl moieties

Abstract: Kinetics of thermal degradation occurring on polyester containing cationic dyeable comonomer units viz. 5-sulphoisophthalate moieties are studied by measurement of changes in intrinsic viscosity and carboxyl values on the polymer after subjecting the polymer chips to temperatures in the range 275-285 C for different residence times ranging from 5 to 60 min and comparing with the homopolymer. The activation energy values for degradation are estimated from the kinetic data. Mechanical properties of the textured … Show more

“…The depolymerization and thermo-oxidative degradation results in decrease of IV and a rise in the number of carboxyl end-groups [11]. Similar phenomena are reported for polyester copolymers at higher temperatures [7].…”

“…This is separately confirmed by measuring the surface cyclic trimers (shown in Table 1. Amount of cyclic trimer in the polyester Yarn [11] When the yarn was washed with methanol, some of the particles gets washed off as seen by the SEM of the washed material in Figures 5a and b indicating the oligomers and cyclic trimers get washed off, with methanol. This confirms that the particles seen in the surface are due to surface cyclic trimers.…”

“…Mechanism of ethylene formation is explained by the Scheme 3 [8][9][10][11]. The overall degradation and cleavage can be represented by the following scheme 4 [12].…”

“…5-sulphoisophthalate moieties are tracked by measuring the mechanical properties of the textured yarns produced from the partially oriented yarn (POY) spun at different residence times [11]. The surface properties of the POY spun at different times are also examined by SEM studies.…”

“…Hence DEG content of the polymer becomes an important parameter to be defined. Kinetic studies [11] of polyester containing 5-sulphoisophthalate units indicate that the copolymer degrades faster than homo PET. The rate of degradation depends on the residence time and temperature to which the molten polymer is subjected Rate of degradation of polymer melts is generally represented [27] by the equation (7) 0 0 11 e -E / RT kt NN …”

Degradation and Recyclability of Poly (Ethylene Terephthalate)

“…The depolymerization and thermo-oxidative degradation results in decrease of IV and a rise in the number of carboxyl end-groups [11]. Similar phenomena are reported for polyester copolymers at higher temperatures [7].…”

“…This is separately confirmed by measuring the surface cyclic trimers (shown in Table 1. Amount of cyclic trimer in the polyester Yarn [11] When the yarn was washed with methanol, some of the particles gets washed off as seen by the SEM of the washed material in Figures 5a and b indicating the oligomers and cyclic trimers get washed off, with methanol. This confirms that the particles seen in the surface are due to surface cyclic trimers.…”

“…Mechanism of ethylene formation is explained by the Scheme 3 [8][9][10][11]. The overall degradation and cleavage can be represented by the following scheme 4 [12].…”

“…5-sulphoisophthalate moieties are tracked by measuring the mechanical properties of the textured yarns produced from the partially oriented yarn (POY) spun at different residence times [11]. The surface properties of the POY spun at different times are also examined by SEM studies.…”

“…Hence DEG content of the polymer becomes an important parameter to be defined. Kinetic studies [11] of polyester containing 5-sulphoisophthalate units indicate that the copolymer degrades faster than homo PET. The rate of degradation depends on the residence time and temperature to which the molten polymer is subjected Rate of degradation of polymer melts is generally represented [27] by the equation (7) 0 0 11 e -E / RT kt NN …”

Degradation and Recyclability of Poly (Ethylene Terephthalate)

Preparation and characterization of poly(ethylene terephthalate) copolyesters modified with sodium‐5‐sulfo‐bis‐(hydroxyethyl)‐isophthalate and poly(ethylene glycol)

The side effects of UV light stabilizer on properties of polypropylene based composite tape yarn