Effects of Nano Alumina and Plasticizers on Morphology, Ionic
Nano alumina (Al 2 O 3) was used as filler, and dioxyphthalate (DOP) and polyethylene glycol (PEG) applied as plasticizers. Various concentrations of lithium salts, nano alumina and plasticizers (5, 10, 15 and 20 wt%) were studied. The morphology, ionic conductivity, thermal and mechanical properties of the SPE were also examined.
Effects of Nano Alumina and Plasticizers on Morphology, Ionic
Nano alumina and plasticizers (PEG, DOP) was then added into PEO composite to further observe the alteration of the morphology with expected enhanced ionic transportation through the composite. The effects of these additives on thermal and mechanical properties of PEO-LiCF 3 SO 3 solid polymer electrolyte were also investigated and discussed in
Comparison of the Effect of Plasticizers on PHBV—and
The synergistic effect of plasticizer and clay was also evident in our mechanical analysis of the compounds; TEC exhibited promising results as an alternative eco-friendly plasticizer compared with DOP, mainly when combined with OMt.
Effects of Nano Alumina and Plasticizers on Morphology, Ionic
DOI: 10.1016/J.ELECTACTA.2015.02.074 Corpus ID: 98380231; Effects of Nano Alumina and Plasticizers on Morphology, Ionic Conductivity, Thermal and Mechanical Properties of PEO-LiCF3SO3 Solid Polymer Electrolyte
Effect of plasticizer on physical and mechanical
Based on this mechanical properties result, plasticizer content was fixed at 30% where elongation at break and tensile strength are in balance conditions. ... Preparation and Characterization of...
- How do plasticizers affect polymer morphology?
- Among those, adding plasticizer is the simplest and most commonly used way to modify polymer morphology. Plasticizers can weaken intermolecular forces along the polymer chains, thus increasing free volume and lowering the glass transition temperature. For this reason, polymers with plasticizers have improved ductility.
- How is plasticization achieved in polymer morphology?
- Plasticization is achieved by incorporating a plasticizer into polymer matrix, copolymerization, or blending. Among those, adding plasticizer is the most common and simplest way to modify polymer morphology. Plasticizer can lessen the intermolecular forces along the polymer chains. As a result, free volume was increased and T g was lowered.
- How does plasticizer content affect cell morphology in polymer foaming?
- With the increase of plasticizer content, the cell size of the foam increased from 9.30 μm (10 phr) to 12.75 μm (30 phr), and the expansion ratio increased from 2.33 (10 phr) to 3.36 (30 phr). This work has reference significance for the study of the regulation of cell morphology in the subsequent polymer foaming process.
- Does EG plasticizer affect the morphology of PVA?
- It was demonstrated that EG plasticizer exhibited good plasticizing effect, which decreased the melting point and widened the processing window of PVA. Moreover, the plasticizer could affect the melt strength and crystallization of samples, thus, affecting the foaming process and the cell morphology.
- How does plasticizer affect the modulus of PLA compounds?
- At the same time, with the addition of a plasticizer, this increase in modulus became insignificant due to the plasticizer effect, thus the modulus of the nucleated and plasticized PLA compounds became practically independent of mold temperature (Fig. 4 /b).
- Which plasticizer has the best morphology?
- These structural changes led to a more uniform distribution of amorphous chain segments and a decrease in glass transition temperatures. Among the tested plasticizers, GLY exhibited the highest compatibility with CL, resulting in the smoothest surface morphology and delivering the most effective plasticizing effect.
