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4278574 
Journal Article 
Aliphatic polycarbonate-based thermoplastic polyurethane elastomers containing diphenyl sulfide units 
Rogulska, M; Kultys, A 
2016 
Journal of Thermal Analysis and Calorimetry
ISSN: 1388-6150
EISSN: 1588-2926 
126 
225-243 
New thermoplastic polyurethane elastomers (TPUs) were obtained by a one-step melt polyaddition from 30, 45 and 60 mol% aliphatic polycarbonate diol of M (n) = 2000 g mol(-1) (Desmophen(A (R)) C2200, Bayer), 1,1'-methanediylbis(4-isocyanatocyclohexane) (HMDI) or 1,6-diisocyanatohexane (HDI) and 2,2'-[sulfanediylbis(benzene-1,4-diyloxy)]diethanol (acting as a chain extender). The TPUs were examined by FTIR, UV-Vis, atomic force microscopy, X-ray diffraction analysis, differential scanning calorimetry, thermogravimetry (TG) and TG-FTIR. Moreover, their Shore A/D hardness, tensile, adhesive and optical properties were determined. The obtained TPUs were transparent or opaque high molar mass materials, showing amorphous or partially crystalline structures. The HDI-based TPUs exhibited lower glass-transition temperatures than those based on HMDI (from -35 to -31 A degrees C vs. from -20 to 1 A degrees C) as well as a higher degree of microphase separation. The TPUs were stable up to 262-272 A degrees C, taking into account the temperature of 1 % mass loss, with somewhat higher values shown by those from HDI. They decomposed in two stages. The main volatile products of the hard-segment decomposition were carbon dioxide, water and carbonyl sulfide, while aliphatic ethers, aldehydes and unsaturated alcohols, as well as carbon dioxide, originated from the soft-segment decomposition. The synthesized TPUs, with hardness in the range of 80-90A degrees Sh A, possessed a good tensile strength (33.0-38.7 MPa), similar to that of the commercial biodurable medical grade TPU ChronoFlex(A (R)) AL 80A (37.9 MPa), prepared from aliphatic polycarbonate diol, HMDI and butane-1,4-diol. 
Sulfur-containing thermoplastic elastomers; Aliphatic-aromatic chain extender; Polycarbonate soft segment; DSC; TG-FTIR; Mechanical properties