How Does Microstructural Design Affect the Dynamics and Rheology of Segmented Polyurethanes?

Abstract: To molecularly investigate the role of the microstructure in controlling the dynamics of segmented polyurethanes (PUs), a series of them were systematically designed, synthesized, and experimentally scrutinized. Broadband dielectric spectroscopy and rheometry along with small-angle X-ray scattering and differential scanning calorimetry were applied to provide insights into molecular origins, particularly the role of transitional friction coefficients (ζ), affecting dynamics and rheology of the various microstr… Show more

“…On top of this, the emergence of the normal mode (), arising from long PPG SSs diffusion is another proof of the growing phases incompatibility. By combining these results with DSC, SAXS and rheology experiments in two papers, 40,41 Heydarnezhad et al provide a deep understanding of the structure–properties of their amorphous TPUs and corresponding nanocomposites that one could be very much tempted to reproduce from other MBCs. The task seems, however, more intricate for semicrystalline MBCs because of the lack of mobility of the hard phase.…”

“…[33][34][35][36] In this case, the word "ordered" is sometimes used to substitute "crystalline", 37 revealing the uncertainty regarding the molecular arrangement of these complex molecules. [38][39][40][41] Lastly, polystyrene (PS) forming amorphous spherical domains in soft PB or PI is used for several decades, [2][3][4][5][6][7][8] and until recently, in association with soft poly(phenylene sulfide sulfone). 42 Note that beyond their chemical nature, their length and their number density, the HSs polymolecularity, their position in the chain and the architecture of the molecule (e.g., comb, stars …) strongly impact the phase diagram of MBCs.…”

“…Besides, thermoplastic polyurethanes (TPUs), based on diisocyanate HSs, are appreciated for their great chemical tunability, involving either crystalline or amorphous hard domains 33–36 . In this case, the word “ordered” is sometimes used to substitute “crystalline”, 37 revealing the uncertainty regarding the molecular arrangement of these complex molecules 38–41 . Lastly, polystyrene (PS) forming amorphous spherical domains in soft PB or PI is used for several decades, 2–8 and until recently, in association with soft poly(phenylene sulfide sulfone) 42 .…”

Recent advances on the structure–properties relationship of multiblock copolymers

“…On top of this, the emergence of the normal mode (), arising from long PPG SSs diffusion is another proof of the growing phases incompatibility. By combining these results with DSC, SAXS and rheology experiments in two papers, 40,41 Heydarnezhad et al provide a deep understanding of the structure–properties of their amorphous TPUs and corresponding nanocomposites that one could be very much tempted to reproduce from other MBCs. The task seems, however, more intricate for semicrystalline MBCs because of the lack of mobility of the hard phase.…”

“…[33][34][35][36] In this case, the word "ordered" is sometimes used to substitute "crystalline", 37 revealing the uncertainty regarding the molecular arrangement of these complex molecules. [38][39][40][41] Lastly, polystyrene (PS) forming amorphous spherical domains in soft PB or PI is used for several decades, [2][3][4][5][6][7][8] and until recently, in association with soft poly(phenylene sulfide sulfone). 42 Note that beyond their chemical nature, their length and their number density, the HSs polymolecularity, their position in the chain and the architecture of the molecule (e.g., comb, stars …) strongly impact the phase diagram of MBCs.…”

“…Besides, thermoplastic polyurethanes (TPUs), based on diisocyanate HSs, are appreciated for their great chemical tunability, involving either crystalline or amorphous hard domains 33–36 . In this case, the word “ordered” is sometimes used to substitute “crystalline”, 37 revealing the uncertainty regarding the molecular arrangement of these complex molecules 38–41 . Lastly, polystyrene (PS) forming amorphous spherical domains in soft PB or PI is used for several decades, 2–8 and until recently, in association with soft poly(phenylene sulfide sulfone) 42 .…”

Recent advances on the structure–properties relationship of multiblock copolymers

“…However, blending more than one diamine draws a question about the nanophase separation and the rheological behavior of the final TPHUs. Like conventional thermoplastic polyurethanes (TPUs), the reaction between the hard segments (dicarbonates) and the soft segments (diamines) produces segmented di/triblock copolymer TPHUs whose microstructure and rheology might deviate from those of standard homopolymers. − Beniah et al and Leitsch et al explored in depth the formation of nanophase separation in their segmented PHUs, notably in those prepared from poly­(tetramethylene oxide)-based diamines. In their studies, the authors investigated the effects that the choice of the dicarbonates, diamines, and chain extenders as well as the functionalization of the hydroxyl groups has on tuning the nanophase separations of their TPHUs. − Nevertheless, there have been limited findings on the rheological behavior of such systems and their compliance to previously established models used for conventional polymers.…”

Bio-based Thermoplastic Polyhydroxyurethanes Synthesized from the Terpolymerization of a Dicarbonate and Two Diamines: Design, Rheology, and Application in Melt Blending

“…All these parameters are connected to molecular mobility, which determines a number of polymer properties, including mechanical and thermoplastic characteristics. With so many variables to consider, investigation of the morphological behavior of PUs and interpretation of their structure-morphology-property behavior has been a very active but also a very challenging field of research [8].…”

Interplay of Structural Factors in Formation of Microphase-Separated or Microphase-Mixed Structures of Polyurethanes Revealed by Solid-State NMR and Dielectric Spectroscopy