posted on 2016-07-26, 00:00authored byFenggui Chen, Wanshuang Liu, Seyed Ismail Seyed Shahabadi, Jianwei Xu, Xuehong Lu
Lignin is an attractive renewable
reinforcing agent for polyolefins
and also a promising low-cost antioxidant for polymers. It, however,
exhibits poor compatibility with nonpolar polymers. In this work,
alkali lignin was freeze-dried to achieve sheet-like morphology and
then incorporated into polypropylene (PP) by melt compounding. Owing
to the significantly increased interfacial area and improved dispersion,
with the addition of only 2 wt % freeze-dried lignin, the PP/lignin
composites show much enhanced tensile mechanical properties, including
a moderately improved Young’s modulus and almost doubled elongation
at break compared with those of neat PP. The enhancements brought
by the sheet-like lignin are far more impressive than those achieved
with the same amount of as-received lignin. The composites with the
freeze-dried lignin also have rough fractured surfaces with fiber
pull-out near the interface, revealing a significant toughening effect
of the lignin, which can be attributed to the crazing near the interface,
and enhanced relaxation in PP-lignin interphase as evidenced by the
reduced Tg. Furthermore, the large interfacial
area also drastically improves the antioxidant effect of lignin, greatly
slowing the UV-induced and thermo-oxidative degradation of PP. After
2 weeks of intense UV exposure, neat PP becomes very brittle with
its yield strain reduced to about 37% of its original value, whereas
the yield strain of the composite with 2 wt % sheet-like lignin is
almost unchanged, demonstrating the excellent free-radical scavenger
effect of the lignin.