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Canejo, João

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0D1B-EBDD-01CE
0000-0002-5361-7368

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2008 - 200912010 - 20132
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Author: Teixeira, Paulo × Subject: Electrospinning ×

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Now showing 1 - 3 of 3
  • First curl, then wrinkle
    Publication . Trindade, Ana C.; Canejo, João; Teixeira, Paulo; Patricio, Pedro; Godinho, Maria Helena
    The excellent properties of elastomers are exploited to trigger wrinkling instabilities in curved shells. Micro‐ and nano‐fibres are produced by electrospinning and UV irradiated: each fibre consists of a soft core and a stiff outer half‐shell. Upon solvent de‐swelling, the fibres curl because the shell and the core have different natural lengths. Wrinkling only starts after the fibre has attained a well‐defined helical shape. A simple analytical model is proposed to find the curling curvature and wrinkle wavelength, as well as the transition between the “curling” and “wrinkling” regimes. This new instability resembles that found in the tendrils of climbing plants as they dry and lignify.
    2013-08-19Journal article Restricted access Show more
  • Helical Twisting of Electrospun Liquid Crystalline Cellulose Micro- and Nanofibers
    Publication . Canejo, João; Borges, João P.; Godinho, M. Helena; Brogueira, Pedro; Teixeira, Paulo; Terentje, Eugene M.
    Helically twisted fibers can be produced by electrospinning liquid-crystalline cellulose solutions. Fiber topographies are studied by atomic force microscopy, scanning electron microscopy (see figure) and polarized optical microscopy. The fibers have a nearly universal pitch-to-diameter ratio and comprise both right- and left-handed helices.
    2008-10-22Journal article Restricted access Show more
  • First Curl, Then Wrinkle
    Publication . Trindade, Ana C.; Canejo, João; Teixeira, Paulo; Patricio, Pedro; Godinho, Maria Helena
    The excellent properties of elastomers are exploited to trigger wrinkling instabilities in curved shells. Micro- and nano-fibres are produced by electrospinning and UV irradiated: each fibre consists of a soft core and a stiff outer half-shell. Upon solvent de-swelling, the fibres curl because the shell and the core have different natural lengths. Wrinkling only starts after the fibre has attained a well-defined helical shape. A simple analytical model is proposed to find the curling curvature and wrinkle wavelength, as well as the transition between the “curling” and “wrinkling” regimes. This new instability resembles that found in the tendrils of climbing plants as they dry and lignify.
    2013-08-19Journal article Restricted access Show more