Self-assembly of poly(3-hydroxybutyrate) (PHB) and cellulose
acetate butyrate (CAB) blends prepared by solvent casting was investigated
by simultaneous synchrotron small-angle X-ray scattering (SAXS) and
wide-angle X-ray diffraction as a function of temperature in a heating
process of the blends. The results revealed different elemental processes
occurring in three characteristic temperature regions: (1) low-T region, where cold crystallization (CC) of PHB into one-dimensional
(1D) assemblies of PHB lamellar crystals occurs in the temperature
(T) range T
cc,PHB ≤ T ≤ T
cc,CAB, where T
cc,PHB and T
cc,CAB are the onset temperature for CC in PHB and CAB, respectively; (2)
crossover-T region, where partial melting/recrystallization
of PHB occurs concurrently with CC of CAB in the interstitial amorphous
matrix among the 1D PHB lamellar assemblies at T
cc,CAB < T ≤ T*,
where T* is a characteristic temperature close to
the T at the higher melting endothermic peak of differential
scanning calorimetry (DSC), T
m,DSC; and
(3) high-T region, where PHB crystals melt and CAB
partially melts/recrystallizes at T > T*. The study also elucidated for the first time in this
blend systems, to our best knowledge, the following points: (a) the
existence of two glass transition temperatures (T
g’s) in the amorphous matrix, with a lower T
g (T
g,l) determined
by DSC and a higher T
g (T
g,h) determined from the SAXS intensity at low q (magnitude of the scattering vector) values as a function
of T; (b) the evolution of the large length-scale
composition fluctuations in the amorphous matrix of the blend at T
g,h ≤ T ≤ T
cc,CAB; (c) crystallization of CAB at T > T
cc,CAB and a melting
temperature for CAB crystals higher than 183 °C. The roles of
intermolecular hydrogen bondings (HBs) between PHB and CAB, intramolecular
HBs within PHB, and those within CAB as well as roles of the exchanges
of those HBs on the self-assembling process, the composition fluctuations,
and the miscibility of the blends in the amorphous phase were also
clarified in the text.