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Study on the Tensile Behavior of Woven Non-Woven PLA/OLA/MgO Electrospun Fibers

Authors :
Adrián Leonés
Laura Peponi
Jesús-María García-Martínez
Emilia P. Collar
Source :
Polymers, Vol 15, Iss 19, p 3973 (2023)
Publication Year :
2023
Publisher :
MDPI AG, 2023.

Abstract

The present work deeply studied the mechanical behavior of woven non-woven PLA/OLA/MgO electrospun fibers, efibers, by using Box–Wilson surface response methodology. This work follows up a previous one where both the diameters and the thermal response of such efibers were discussed in terms of both the different amounts of magnesium oxide nanoparticles, MgO, as well as of the oligomer (lactic acid), OLA, used as plasticizer. The results of both works, in term of diameters, degree of crystallinity, and mechanical response, can be strongly correlated to each other, as reported here. In particular, the strain mechanism of PLA/OLA/MgO efibers was studied, showing an orientation of efibers parallel to the applied stress and identifying the mechanically weakest points that yielded the start of the breakage of efibers. Moreover, we identified 1.5 wt% as the critical amount of MgO, above which the plasticizing effect of OLA was weaker as the amount of both components increased. Moreover, the minimum elastic modulus value took place at 15 wt% of OLA, in agreement with the previously reported convergence point in the evolution of the degree of crystallinity. Regarding the yield point, a concentration of OLA between 20 and 30 wt% led to a slight improvement in the yielding capability in terms of tensile strength in comparison with neat PLA efibers. Therefore, the approach presented here permits the design of tailor-made electrospun nanocomposites with specific mechanical requirements.

Details

Language :
English
ISSN :
20734360
Volume :
15
Issue :
19
Database :
Directory of Open Access Journals
Journal :
Polymers
Publication Type :
Academic Journal
Accession number :
edsdoj.b902cf97564ea2b5f6c9053f78ffca
Document Type :
article
Full Text :
https://doi.org/10.3390/polym15193973