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Cited by 26 publications
(16 citation statements)
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“…This is true under the assumption that the particles of the fillers used in the work do not have a constant electric charge (there is no Coulomb interaction). In general, if we use the terminology applied to chemical reactions, a spontaneous change in the free energy G (Gibbs energy) during the migration of filler particles to the melt surface can be described by the following relation [ 50 ]: where H is the total enthalpy of the system; T is the absolute temperature of the medium; S is the total entropy of the system; s is the surface area of a nanoparticle that changes the contact with the polymer to contact with the components of the mold or air; and are the specific enthalpy (specific surface energy) of the nanoparticle at the boundary and in the bulk of the composite, respectively; and are the specific enthalpy (specific surface energy) of the polymer at the boundary and in the bulk of the composite melt, respectively; is a certain coefficient of change in the entropy of a nanoparticle when it, or part of it, passes from the bulk to the surface; and are the specific enthalpy of the polymer at the boundary and in the bulk of the composite, respectively; is a certain coefficient of change in the entropy of the polymer when it passes in a certain amount from the boundaries of the composite melt into its volume; and are the specific enthalpy of the polymer at the boundary and in the bulk of the composite, respectively.…”
Section: Discussionmentioning
confidence: 99%
“…This is true under the assumption that the particles of the fillers used in the work do not have a constant electric charge (there is no Coulomb interaction). In general, if we use the terminology applied to chemical reactions, a spontaneous change in the free energy G (Gibbs energy) during the migration of filler particles to the melt surface can be described by the following relation [ 50 ]: where H is the total enthalpy of the system; T is the absolute temperature of the medium; S is the total entropy of the system; s is the surface area of a nanoparticle that changes the contact with the polymer to contact with the components of the mold or air; and are the specific enthalpy (specific surface energy) of the nanoparticle at the boundary and in the bulk of the composite, respectively; and are the specific enthalpy (specific surface energy) of the polymer at the boundary and in the bulk of the composite melt, respectively; is a certain coefficient of change in the entropy of a nanoparticle when it, or part of it, passes from the bulk to the surface; and are the specific enthalpy of the polymer at the boundary and in the bulk of the composite, respectively; is a certain coefficient of change in the entropy of the polymer when it passes in a certain amount from the boundaries of the composite melt into its volume; and are the specific enthalpy of the polymer at the boundary and in the bulk of the composite, respectively.…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, polymer blends have better process ability, quick formulation changes, tailor ability to a specific needed, reduced number of grades need to manufacture and store, and recyclability of blends achieved by control of morphology [ 2 ]. Through polymer blending, two or more polymers are combined in a single system, which produce a new material with unique properties [ 3 ]. The blending can be either from the same or different categories.…”
Section: Introductionmentioning
confidence: 99%
“…Compression molding press is one of the fabrication techniques adopted for laminated composites 48 . In this technique, the liquid matrix was uniformly applied on one side of the fiber surface mat by using a roller brush.…”
Section: Fabrication Of Laminate Compositesmentioning
confidence: 99%