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the basis of the crystallization curves, by designation the crystallization enthalpy. Crystallisation enthalpy was determined from the area under the crystallisation curve. On account of curves crystal conversion versus time, the half-time of
Introduction More than 1,200 articles are published every year in scientific journals that are related to crystallization of glasses. This number was four times larger than 20 years ago. However, most of those articles
are difficult to eliminate after formation. Elimination of the organic material was evaluated by thermal analysis (TG/DTA) and infrared spectroscopy. X-ray diffraction was used to evaluate the crystallization, while UV–vis spectroscopy permitted to
. Although there have been previous studies of Mg–Cu–Y ternary alloys [ 6 – 9 ], there have been relatively little detailed study on their thermal properties, in particular the crystallization behavior, mechanism of crystallization, and crystallization
composites [ 9 ]. It is well recognized that some inorganic filler, as a reinforcing agent in composites, can induce nucleation for crystallization and accelerated overall crystallization process [ 11 – 14 ]. In general, mineral fillers can influence
increase in the conductivity of the samples with higher Bi contents. Hence, the knowledge of crystallization kinetics is of essential importance for the realization of the process of controlled microcrystallization in chalcogenide glasses aimed at
interaction between particles and polymer matrix, and then influences the crystallization and melting behavior of polymer composites. It is found that nano-CaCO 3 particles treated with nonionic modifier increased the crystallization rate of PP matrix [ 11
-block- PPAd) copolymers with low propylene adipate content were synthesized following a combination of polycondensation and ring opening polymerization. The materials were characterized and the isothermal crystallization of PCL blocks in the copolymers
components. The practical and theoretical investigation of the properties of the polymer blends which involve a crystallizable and an amorphous component has received great attention now a days. In the case of such blends, the amorphous component may
of studies has been placed on water absorption, mechanical properties, thermal decomposition, weathering, crystallization, and rheological properties in the presence of compatibilizing agents [ 22 – 26 ]. There are many articles on studying the