Mechanics of nanoparticle adhesion â A continuum approach
Mechanics of nanoparticle adhesion â A continuum approach
Mechanics of nanoparticle adhesion â A continuum approach
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<strong>Mechanics</strong> <strong>of</strong> <strong>nanoparticle</strong> <strong>adhesion</strong> — A <strong>continuum</strong> <strong>approach</strong> 43fflow or yieldF=0 potential force equilibrium (potential minimum)H<strong>adhesion</strong>iinternalisoisostaticKparticle contactlliquidmmass relatedMcenterminminimumNnormalppressure relatedplplasticrmicro-roughnessRradiusreprepulsionssolidSsurface, shearslssolid-liquid-solid interaction between particlessssolid-vacuum-solid interaction between particlesststationarySzshear zonetloading time dependentTtangentialththeoreticaltottotalUunloadingVvolume relatedVdW van der Waalsvistotal viscoplastic0 initial, zero point(0) beginning <strong>of</strong> iterations1,2 particle 1, particle 23 mass basis <strong>of</strong> cumulative distribution <strong>of</strong> particle diameter (d 3 )50 median particle diameter, i.e., 50% <strong>of</strong> cumulative distributionREFERENCES1. F. Ziegler, Techn. Mechanik der festen und flüssigen Körper, Springer Verlag, Wien (1985).2. H. Göldener, Lehrbuch höhere Festigkeitslehre, Vols. 1 and 2, Fachbuchverlag, Leipzig (1992).
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