Size-dependent behavior of electrospun polymer nanofibers under small deformation

Arkadii Arinstein, Eyal Zussman

Research output: Contribution to conferenceAbstractpeer-review

Abstract

A model describing a mechanism resulting in size-dependent behavior of electrospun polymer nanofibers under small deformation is proposed. According this model, the polymer matrix of the nanofibers consists of correlated groups of chains/subchains, partially orientated along the fiber. These supermolecular structures which were formed during electrospinning are confined by the fiber boundary. Thus, when the fiber elongates under external force the relative rotations of these correlated regions are hindered. As a result the elastic modulus depends on the diameter of the deformed fiber. In case of small fiber diameters this restriction is dominant while this effect decreases with increase of fiber diameter, and tends to zero for large fiber diameters according to square-law which was verified by experimental observations.
Original languageAmerican English
StatePublished - 2011
EventAPS March Meeting 2011 - Dallas, Texas, United States
Duration: 21 Mar 201125 Mar 2011

Conference

ConferenceAPS March Meeting 2011
Country/TerritoryUnited States
CityDallas, Texas
Period21/03/1125/03/11

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