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akron1340465711.pdf (4.18 MB)
ETD Abstract Container
Abstract Header
Gecko-Inspired Electrospun Flexible Fiber Arrays for Adhesion
Author Info
Najem, Johnny F.
Permalink:
http://rave.ohiolink.edu/etdc/view?acc_num=akron1340465711
Abstract Details
Year and Degree
2012, Doctor of Philosophy, University of Akron, Mechanical Engineering.
Abstract
The ability of geckos to adhere to vertical solid surfaces comes from their remarkable feet with millions of projections terminating in nanometer spatulae. We present a simple yet robust method for fabricating directionally sensitive dry adhesives. By using electrospun nylon 6 nanofiber arrays, we create gecko-inspired dry adhesives, that are electrically insulating, and that show shear adhesion strength of 27 N/cm2 on a glass slide. This measured value is 270% that reported of gecko feet and 97-fold above normal adhesion strength of the same arrays. The data indicate a strong shear binding-on and easy normal lifting-off. This anisotropic strength distribution is attributed to an enhanced shear adhesion strength with decreasing fiber diameter (d) and an optimum performance of nanofiber arrays in the shear direction over a specific range of thicknesses. With use of electrospinning, we report the fabrication of nylon 6 nanofiber arrays that show a friction coefficient (µ) of ~11.5. These arrays possess significant shear adhesion strength and low normal adhesion strength. Increasing the applied normal load considerably enhances the shear adhesion strength and µ, irrespective of d and fiber arrays thickness (T). Fiber bending stiffness and fiber surface roughness are considerably decreased with diminishing d while fiber packing density is noticeably increased. These enhancements are proposed to considerably upsurge the shear adhesion strength between nanofiber arrays and a glass slide. The latter upsurge is mainly attributed to a sizeable proliferation in van der Waals (vdW) forces. These nanofiber arrays can be alternatively bound-on and lifted-off over a glass slide with a trivial decrease in the initial µ and adhesion strength. By using selective coating technique, we have also created hierarchical structures having closely packed nanofibers with d of 50 nm. We determine the effects of applied normal load, fiber surface roughness, loading angle, d, T, and repeated adhesion measurements on their corresponding adhesion strength and µ. These effects are determined with the aid of atomic force microscopy (AFM), scanning electron microscopy (SEM), differential scanning calorimetry (DSC), macroscopic adhesion testing, and wide angle x-ray diffraction (WAXD) techniques.
Committee
Shing-Chung Wong, Dr. (Advisor)
Gregory Morscher, Dr. (Committee Member)
Peter Niewiarowski, Dr. (Committee Member)
Darrell Reneker, Dr. (Committee Member)
Erol Sancaktar, Dr. (Committee Member)
Tirumalai Srivatsan, Dr. (Committee Member)
Pages
165 p.
Subject Headings
Materials Science
;
Mechanical Engineering
;
Nanotechnology
;
Polymers
;
Robotics
;
Technology
Keywords
gecko-inspired adhesion
;
reusable dry adhesive
;
electrically insulating dry adhesive
;
hierarchical nanostructures
;
nylon 6 nanofiber arrays with substantial friction coefficient
;
high-aspect-ratio nanofibers
;
electrospun nylon 6 nanofibers
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Citations
Najem, J. F. (2012).
Gecko-Inspired Electrospun Flexible Fiber Arrays for Adhesion
[Doctoral dissertation, University of Akron]. OhioLINK Electronic Theses and Dissertations Center. http://rave.ohiolink.edu/etdc/view?acc_num=akron1340465711
APA Style (7th edition)
Najem, Johnny.
Gecko-Inspired Electrospun Flexible Fiber Arrays for Adhesion.
2012. University of Akron, Doctoral dissertation.
OhioLINK Electronic Theses and Dissertations Center
, http://rave.ohiolink.edu/etdc/view?acc_num=akron1340465711.
MLA Style (8th edition)
Najem, Johnny. "Gecko-Inspired Electrospun Flexible Fiber Arrays for Adhesion." Doctoral dissertation, University of Akron, 2012. http://rave.ohiolink.edu/etdc/view?acc_num=akron1340465711
Chicago Manual of Style (17th edition)
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Document number:
akron1340465711
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Copyright Info
© 2012, all rights reserved.
This open access ETD is published by University of Akron and OhioLINK.