Antinucleating action of polystyrene on the isothermal cold crystallization of poly(ethylene terephthalate)

Abstract: The effect of polystyrene (PS) on the kinetics of the cold crystallization of poly(ethylene terephthalate) (PET) was thoroughly investigated. The PET/PS blends were essentially immiscible, as observed by dynamic mechanical thermal analysis, which showed two distinct glass-transition temperatures, and by scanning electron microscopy. The neat PET and its blends were isothermally cold-crystallized at various temperatures, and the kinetic parameters were determined with the Avrami approach. PET and its blends pre… Show more

“…It should be noted that, under the tests conditions PS is a completely amorphous polymer, immiscible in PET; the solubility limit of PS in PET is believed to be less than 1%, thus it is possible that once the solubility limit between PET and PS to be reached PS is segregated at amorphous zone then producing little effect on the crystalline phase of PET. In literature database several explanations are presented for the multiple crystallization phenomenon: two kinds of amorphous regions, inter-lamellar and inter-spherulite, different crystalline geometries, co-crystallization and fractional crystallization, secondary or recrystallization effects 6,9,11,12,14,28,[30][31]35,[41][42][43][44][45][46][47][48][49][50][51][52][53][54][55] . PET crystallization in PET/PS blends proceeds at a higher temperature and lower crystallization rate than in the neat resin.…”

“…Although heating and cooling rates during industrial processing are very high and the material is subjected to severe dynamical stresses, differential scanning calorimetry (DSC) static tests, carried under far milder conditions, may be used as a guide to select the processing methods. Moreover, precise determination of optimal melting parameters is needed to avoid polymer degradation during processing and excessive energy consumption [12][13][14] . According to packing industry cold crystallized preforms are a serious waste of money; thus, the solution to this problem would be very welcome.…”

“…From previous work we know that blending a small amount of an amorphous polymer may hinder unwelcomed cold crystallization of PET and prevent excessive crystallinity under processing conditions. Thus, polystyrene, an apolar amorphous polymer appears to be a good candidate 12,[15][16][17][18][19][20][21] . The present work is concerned with an investigation of the melting and nonisothermal cold crystallization of PET and PET/PS blends with 1 to 60% of PS content.…”

Effect of polystyrene on poly(ethylene terephthalate) crystallization

“…It should be noted that, under the tests conditions PS is a completely amorphous polymer, immiscible in PET; the solubility limit of PS in PET is believed to be less than 1%, thus it is possible that once the solubility limit between PET and PS to be reached PS is segregated at amorphous zone then producing little effect on the crystalline phase of PET. In literature database several explanations are presented for the multiple crystallization phenomenon: two kinds of amorphous regions, inter-lamellar and inter-spherulite, different crystalline geometries, co-crystallization and fractional crystallization, secondary or recrystallization effects 6,9,11,12,14,28,[30][31]35,[41][42][43][44][45][46][47][48][49][50][51][52][53][54][55] . PET crystallization in PET/PS blends proceeds at a higher temperature and lower crystallization rate than in the neat resin.…”

“…Although heating and cooling rates during industrial processing are very high and the material is subjected to severe dynamical stresses, differential scanning calorimetry (DSC) static tests, carried under far milder conditions, may be used as a guide to select the processing methods. Moreover, precise determination of optimal melting parameters is needed to avoid polymer degradation during processing and excessive energy consumption [12][13][14] . According to packing industry cold crystallized preforms are a serious waste of money; thus, the solution to this problem would be very welcome.…”

“…From previous work we know that blending a small amount of an amorphous polymer may hinder unwelcomed cold crystallization of PET and prevent excessive crystallinity under processing conditions. Thus, polystyrene, an apolar amorphous polymer appears to be a good candidate 12,[15][16][17][18][19][20][21] . The present work is concerned with an investigation of the melting and nonisothermal cold crystallization of PET and PET/PS blends with 1 to 60% of PS content.…”

Effect of polystyrene on poly(ethylene terephthalate) crystallization

“…49,[54][55][56] The Avrami equation is in the form as 49,[54][55][56] The Avrami equation is in the form as…”

Controlling sandwich‐structure of PET microcellular foams using coupling of CO₂ diffusion and induced crystallization

“…Macroscopic crystallization in polymers starts at very low rates due to the first, slow nucleation step; crystallization rate increases during the main or bulk crystallization and then decreases as the material is depleted of crystallizable molecules and due to spherulitic impingement [20][21][22] . Most crystallization parameters are strongly dependent on the cooling/reheating rate, and the dependence is different for the melt and cold crystallization processes.…”

Melting and crystallization of poly(3-hydroxybutyrate): effect of heating/cooling rates on phase transformation