THERMAL SCIENCE

International Scientific Journal

Authors of this Paper

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Hao Dou

,

Ji-Huan He

,

Hong-Yan Liu

WAVE-LIKE BEADS ON NANOFIBERS BY BLOWN BUBBLE SPINNING

ABSTRACT
This paper observed wave-like beads with average size of 40 nm on the surface of nanofibers obtained by the blown bubble spinning. Theoretical analysis demonstrates that some perturbed waves are produced on the surface of the moving jets before solidification. The resultant fibers have many potential applications in water/ air filtration.
KEYWORDS
blown bubble spinning, nanofibers, wave, beads
PAPER SUBMITTED: 2014-03-30
PAPER REVISED: 2014-05-02
PAPER ACCEPTED: 2014-07-12
PUBLISHED ONLINE: 2015-01-04
DOI REFERENCE: https://doi.org/10.2298/TSCI1405477D
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2014, VOLUME 18, ISSUE Issue 5, PAGES [1477 - 1479]
REFERENCES
  1. Nayak, R., et al., Recent Advances in Nanofibre Fabrication Techniques, Textile Research Journal, 82 (2012), 2, pp. 129-147
  2. Zhuang, X., et al., Solution Blowing of Submicron-Scale Cellulose Fibers, Carbohydrate Polymers, 90 (2012), 2, pp. 982-987
  3. Medeiros, E. S., et al., Solution Blow Spinning: A New Method to Produce Micro- and Nanofibers from Polymer Solutions, Journal of Applied Polymer Science, 113 (2009), 4, pp. 2322-2330
  4. Sinha-Ray, S., et al., Solution Blowing of Soy Protein Fibers, Biomacromolecules, 12 (2011), 6, pp. 2357-2363
  5. Sinha-Ray, S., et al., The Production of 100/400 nm Inner/Outer Diameter Carbon Tubes by Solution Blowing and Carbonization of Core-Shell Nanofibers, Carbon, 48 (2010), 12, pp. 3575-3578
  6. Nandana, B., Subhas, C. K., Electrospinning: A Fascinating Fiber Fabrication Technique, Biotechnology Advances, 28 (2010), 3, pp. 325-347
  7. Varesano, A., et al., Multi-Jet Nozzle Electrospinning on Textile Substrates: Observations on Process and Nanofibre Mat Deposition, Polymer International, 59 (2010), 12, pp. 1606-1615
  8. Lu, B., et al., Superhigh-Throughput Needleless Electrospinning Using a Rotary Cone as Spinneret, Small, 6 (2010), 15, pp. 1612-1616
  9. Hsiaom, H. Y., et al., Effect of Air Blowing on The Morphology and Nanofiber Properties of Blowing- Assisted Electrospun Polycarbonates, Journal of Applied Polymer Science, 124 (2012), 6, pp. 4904- 4914
  10. Kong, C. S., et al., Nanofiber Deposition by Electroblowing of PVA (Polyvinyl Alcohol), Journal of Materials Science, 44 (2009), 4, pp. 1107-1112
  11. Liu, Y., He, J.-H., Bubble Electrospinning for Mass Production of Nanofibers, Int. J. Nonlinear Sci Numer. Simulat., 8 (2007), 3, pp. 393-396
  12. Yang, R. R., et al., Bubble-Electrospinning for Fabricating Nanofibers, Polymer, 50 (2009), 24, pp. 5846-5850
  13. Zhuang, X., et al., Solution Blown Nanofibrous Membrane for Microfiltration, Journal of Membrane Science, 429 (2013), Feb., pp. 66-70
  14. He, J.-H., Effect on Temperature on Surface Tension of a Bubble and Hierarchical Ruptured Bubbles for Nanofiber Fabrication, Thermal Science, 16 (2012), 1, pp. 327-330
  15. Agarwal, S., et al., Functional Materials by Electrospinning of Polymers, Prog. Polym. Sci., 38 (2013), 6, pp. 963-991
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Wave-like beads on nanofibers by blown bubble spinning

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence