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Publication
A novel approach for preparation of nanocomposites with an excellent rigidity/deformability balance based on reinforced HDPE with halloysite
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Advisor(s)
Abstract(s)
An innovative approach, designated as supported activator (SA), allows preparation of high density polyethylene
(HDPE)-based highly performant hybrid materials. This procedure makes use of a nano-sized supported methylaluminoxane (MAO)-activator, based on halloysite natural nanotubes (HNT), combined with an in situ supporting concept. The new protocol when compared with a more conventional approach gives rise to higher
polymerization activities as well as ultimate materials with better morphological features, greater crystallinity,
thicker crystals, and highly increased stiffness. Moreover, a remarkable synergy between rigidity and toughness
is attained. The Young’s modulus of a film obtained from the nanocomposite with the highest HNT content
increases more than 70 % relatively to a pristine HDPE film, while retaining the limit stretching ability of pristine
HDPE (more than 800%). A beneficial impact of using a high aspect ratio support such as HNT in the mechanical
properties is also observed, when compared to similar HDPE hybrid materials derived from dendrimer-like silica
(DS) nanospheres. Interestingly, polymerization activity, polymer features and derived properties found in the
ultimate materials are less impacted by support/filler nature than by preparation method. This fact highlights the
crucial role of the synthetic methodology used and corroborates the high potential of the SA route for the
preparation of high-performance polyethylene-based nanocomposites with an excellent balance between stiffness
and deformability.
Description
Keywords
Halloysite Polyethylene In-situ catalyst support Mechanical response
Citation
Publisher
Elsevier