2021
DOI: 10.1007/978-981-16-0486-7_11
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Theoretical Aspects of XLPE-Based Blends and Nanocomposites

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Cited by 5 publications
(17 citation statements)
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“…Note that the slight increase in Tc and Tm from unfilled XLPE to XLPE nanocomposite ensures that the crystalline region melts and enhances mechanical properties at relative temperatures [ 49 ]. This finding is in agreement with Thomas et al [ 50 ] stating that DSC results of XLPE nanocomposites had comparable results on Tc and Tm indicating a low effect of nanofillers on XLPE phase transformations. However, after analysing the value of the Xc, it can be seen that the incorporation of LDH-Al 2 O 3 to XLPE caused the Xc to increase.…”
Section: Resultssupporting
confidence: 93%
“…Note that the slight increase in Tc and Tm from unfilled XLPE to XLPE nanocomposite ensures that the crystalline region melts and enhances mechanical properties at relative temperatures [ 49 ]. This finding is in agreement with Thomas et al [ 50 ] stating that DSC results of XLPE nanocomposites had comparable results on Tc and Tm indicating a low effect of nanofillers on XLPE phase transformations. However, after analysing the value of the Xc, it can be seen that the incorporation of LDH-Al 2 O 3 to XLPE caused the Xc to increase.…”
Section: Resultssupporting
confidence: 93%
“…Several micromechanical theoretical studies on the interfacial/interphase area have contributed an ample amount of data that favors the attainment of expected mechanical properties like yield strength, Young's modulus, tensile strength, and so on. Pukanszky 29 established an easy model connecting the yield strength of polymer composites to interfacial parameters, and it was successfully applied in various polymer nanocomposites 47,52–55 . Here, we successfully applied this model in SiO 2 –XLPE nanocomposites for predicting interfacial properties.…”
Section: Resultsmentioning
confidence: 99%
“…Pukanszky 29 established an easy model connecting the yield strength of polymer composites to interfacial parameters, and it was successfully applied in various polymer nanocomposites. 47,[52][53][54][55] Here, we successfully applied this model in SiO 2 -XLPE nanocomposites for predicting interfacial properties. In this Pukanszky's model, "B" is the interfacial parameter; it indicates the capability of stress transfer from the polymer matrix to the nanoparticle, as a function of the particle density and specific surface area, thickness, and strength of interphase.…”
Section: Reinforcement Mechanism and Theoretical Modelingmentioning
confidence: 99%
“…The present review discusses a few effective XLPE recycling techniques. 14 3.a. Chemical Recycling or Feedstock Recycling of Polymer Wastes.…”
Section: Recycling Of Cross-linked Polyethylenementioning
confidence: 99%
“…The irreversible covalent linkages in the network, however, mean that these polymer's reprocessability and recyclability are compromised in contrast to those of thermoplastics. 13,14 Here is the main goal of chemical recycling, often referred to as tertiary recycling or feedstock recycling where waste polymers can be transformed into their original monomers or other valuable compounds. 14 3.b.…”
Section: Recycling Of Cross-linked Polyethylenementioning
confidence: 99%