693.932 PEOPLE
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| Naji, M. |
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Smith, James
University of Portsmouth
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (13/13 displayed)
- 2011Multifunctional poly(alkyl methacrylate) films for dental carecitations
- 2011Electrochemical and computational studies of electrically conducting polymer coatingscitations
- 2011Mapping surface heterogeneity: the AFM-based approach
- 2011The effects of incorporated silicone oils and calcium carbonate on the resistance to settlement and the antifouling performance of a silicone elastomercitations
- 2010Towards the determination of surface energy at the nanoscale: a further assessment of the AFM-based approachcitations
- 2010A comparative study of surface energy data from atomic force microscopy and from contact angle goniometrycitations
- 2004Friction coefficient mapping using the atomic force microscopecitations
- 2002Fluoropolymer coatings with inherent resistance to biofouling
- 2002Adhesion force mapping of polymer surfaces: factors influencing force of adhesioncitations
- 2002Adsorbed poly(ethyleneoxide)–poly(propyleneoxide) copolymers on synthetic surfaces: spectroscopy and microscopy of polymer structures and effects on adhesion of skin-borne bacteriacitations
- 2001Nanoindentation and adhesion-force-mapping studies of polymer blend films
- 2000Mapping the surface heterogeneity of a polymer blend: an adhesion-force-distribution study using the Atomic Force Microscopecitations
- 2000Poly(perfluoroalkyl methacrylate) film structures: surface organization phenomena, surface energy determinations, and force of adhesion measurementscitations
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article
Adhesion force mapping of polymer surfaces: factors influencing force of adhesion
Abstract
Nanoindentation measurements form the basis of an atomic force microscopy (AFM) technique that may be employed for the purpose of elucidating the surface heterogeneity of polymeric materials. If the cantilever is stiffer than the substrate, measurement of the extent of cantilever deflection, as the tip is pressed into the sample, probes quantitatively the compliance of the surface as a function of applied load. As with force-of-adhesion measurements, the quantification of indentation measurements may be impeded by the complexity of the tip-sample interactions, especially if a nonelastic surface is probed.