Polymeric foams can be found virtually everywhere due to their advantageous properties compared with counterparts materials. Possibly the most important class of polymeric foams are polyurethane foams (PUFs), as their low density and thermal conductivity combined with their interesting mechanical properties make them excellent thermal and sound insulators, as well as structural and comfort materials. Despite the broad range of applications, the production of PUFs is still highly petroleum-dependent, so this industry must adapt to ever more strict regulations and rigorous consumers. In that sense, the well-established raw materials and process technologies can face a turning point in the near future, due to the need of using renewable raw materials and new process technologies, such as three-dimensional (3D) printing. In this work, the fundamental aspects of the production of PUFs are reviewed, the new challenges that the PUFs industry are expected to confront regarding process methodologies in the near future are outlined, and some alternatives are also presented. Then, the strategies for the improvement of PUFs sustainability, including recycling, and the enhancement of their properties are discussed.
Ecopolyol production
from acid liquefaction of cork powder was studied for the first time
using PEG 400 and glycerol as liquefaction solvents in the presence
of sulfuric acid at moderate temperature and atmospheric pressure.
The effect of the temperature, concentration of catalyst, and time
on the liquefaction yield has been investigated using a fixed set
of reaction conditions namely, a liquefaction solvent mixture/cork
powder ratio of 5/1 and a solvent mixture PEG 400/glycerol ratio of
90/10. The full-factorial design of experiments (DOE) 23 was applied to obtain an optimized set of liquefaction conditions
aiming at minimizing the residue content. The minimum residue contents
experimentally obtained in this study were 29 wt %, related to cork
powder, which were achieved at 150 °C, 4 wt % of sulfuric acid,
and 60 min. This value corresponds to 5 wt % of residue per total
mass of reaction product. The polyols obtained under optimal conditions
present similar characteristics (hydroxyl number value 219 mgKOH/gpolyol and viscosity 2875 cP, at 25 °C)
to those of petroleum-based polyols typically used in the polyurethane
foam industry.
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