2016
DOI: 10.1039/c6ra05490k
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Facile fabrication of shape memory poly(ε-caprolactone) non-woven mat by combining electrospinning and sol–gel reaction

Abstract: A smart combination of electrospinning and sol–gel reaction enabled to develop crosslinked poly(ε-caprolactone) fibrous mats showing excellent shape memory properties.

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Cited by 18 publications
(29 citation statements)
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“…The increase of the inflection temperature with the applied stress is a well‐known effect in bulk systems, and it is ascribed to the easier crystallization taking place under highly stretched state, whereas the broadening of the transition may be interpreted as a consequence of the evolution of the fiber morphology. In fact, as already observed for the present system, for strains up to 100% the fibers tend to deform through a simultaneous occurrence of rotational and flexural rearrangements, by which the fibers appear as uniformly deformed; only at higher strains, a proper stretching of the fibers takes place, leading to a less homogeneous structure, where highly stretched fibers, and buckled transverse fibers (i.e., those laying perpendicularly to the load direction) can be found. This may be at the basis of the sharp elongation occurring at low strain, where all the homogeneously deformed fibers contribute to the material elongation; on the other hand, the more distributed elongation may be due to different contributions provided by the variously stretched fibers.…”
Section: Resultssupporting
confidence: 85%
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“…The increase of the inflection temperature with the applied stress is a well‐known effect in bulk systems, and it is ascribed to the easier crystallization taking place under highly stretched state, whereas the broadening of the transition may be interpreted as a consequence of the evolution of the fiber morphology. In fact, as already observed for the present system, for strains up to 100% the fibers tend to deform through a simultaneous occurrence of rotational and flexural rearrangements, by which the fibers appear as uniformly deformed; only at higher strains, a proper stretching of the fibers takes place, leading to a less homogeneous structure, where highly stretched fibers, and buckled transverse fibers (i.e., those laying perpendicularly to the load direction) can be found. This may be at the basis of the sharp elongation occurring at low strain, where all the homogeneously deformed fibers contribute to the material elongation; on the other hand, the more distributed elongation may be due to different contributions provided by the variously stretched fibers.…”
Section: Resultssupporting
confidence: 85%
“…Therefore, such difficulties in setting precise values of stress and strain from specimen to specimen prohibited a proper evaluation of the experimental errors by means of repeated experiments. However, previous experience on the one‐ and two‐way shape memory tests on various materials and further side‐experiments on the PCL nonwovens allowed us to estimate that the relative error may be considered to be about 1%, and in any case less than 10%. The values presented in Tables and were reasonably rounded to an according number of significant digits.…”
Section: Methodsmentioning
confidence: 95%
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