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Advances in Materials Science Research - Volume 35 (Hardcover)
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Advances in Materials Science Research - Volume 35 (Hardcover)
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Advances in Materials Science Research. Volume 35 opens with an
examination of the effect of bismaleimides based on the Diels-Alder
reaction mechanism on high performance aerospace carbon fibre
reinforced plastics. More precisely, the interlaminar fracture
toughness of unidirectional bismaleimide modified composites and
their healing capabilities were measured under mode I and mode II
fracture loading conditions. Following this, polyacrylonitrile
nanofibers are first obtained from polyacrylonitrile in
dimethylformamide by electrospinning. Then, the carbon nanofibers
are obtained by calcination of polyacrylonitrile nanofibers.
Additionally, the capacity of these materials to promote oxygen
reduction reaction is evaluated. As new sorbents are developed for
purifying gases or liquids via physisorption and/or chemisorption
processes, the objective is typically to increase the specific
surface area to maximize the available binding sites for capturing
various species of interest. One drawback to making a sorbent more
porous is that it often leads to a product that is fragile or
friable and can be damaged, thus imposing process limitations.
Thus, the authors propose an alternative approach for improving the
mechanical integrity of the sorbent by binding it within a porous
matrix that passively holds the sorbent in place. Next, evidence
that the nanopillared graphene surface can induce strong
dewettability is been reported by molecular dynamics simulations.
The retracting and detaching behaviors of the liquid film can be
effectively controlled by tuning the geometric parameters of the
liquid film or nanopillar as well as the temperature. This
compilation also includes a study which aims to present the
advantages of using a thermodynamic analysis for the production of
high purity hydrogen by the ethanol steam reforming combined with
CO2 absorption (ESR-CO2-ABS). For this purpose, a thermodynamic
analysis is used to find optimal reaction conditions for the
ESR-CO2-ABS system. Thermodynamic analysis of the ESR-CO2-ABS
system was performed using CaO, CaOMgO, Na2ZrO3, Li2ZrO3 and
Li4SiO4 as CO2 absorbents to determine optimal operating conditions
to generate high production and concentration of hydrogen in the
product gas. In conclusion, the authors discuss how recently,
research emphasis has been directed towards integrating multiple
functions into polymer materials. Among these new advancements in
materials science are functional polymers with structural designs
for versatile applications. Piperazine is an interesting
heterocyclic diamine which possess excellent medicinal and
chelating property. Polymers and surfactants based on piperazine
and surfactants have shown good hydrophilic, chelating
anti-bacterial and anti-helminthic properties.
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