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The effect of Young’s modulus on the surface-force-induced contact radius of spherical glass particles on polyurethane substrates
51
Citations
26
References
1992
Year
EngineeringMechanical EngineeringGlass MaterialElectron MicroscopyGlass TransitionContact MechanicMaterials SciencePolyurethane SubstratesSurface TensionSpherical Glass ParticlesSurface ModificationMaterial MechanicsMechanical PropertiesSurface Force InteractionsAdhesive MaterialSurface ScienceMaterials CharacterizationApplied PhysicsSurface-force-induced Contact RadiusInterfacial PhenomenaGlass Beads
The radius of contact, arising from surface force interactions, was determined using scanning electron microscopy for glass beads having nominal radii of 12 and 20 μm in contact with two polyurethane substrates, differing principally in Young’s modulus (3.83 and 41.7 MPa, respectively). It was found that the ratios of the contact radii scaled according to the model proposed by Johnson, Kendall, and Roberts [Proc. R. Soc. London Ser. A 324, 301 (1971)]. The works of adhesion calculated from these results were found to be approximately 0.12 J/m2.
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