Three dimensional adhesion model for arbitrary rough surfaces


Deladi, S. and Krijnen, G.J.M. and Tas, N.R. and Elwenspoek, M.C. (2002) Three dimensional adhesion model for arbitrary rough surfaces. In: International Conference on Computational Nanoscience and Nanotechnology, ICCN, April 22-25, 2002, San Juan, Puerto Rico, USA (pp. pp. 326-329).

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Abstract:We present a 3D adhesion model based on the JKR theory applied locally for all contacting asperity couple and the calculations account the van der Waals interaction beside the externally applied force. Thus, equilibrium of the system is determined by an extremum in the free total energy and subsequently the contact and the adhesion parameters are computed for that particular position. The model estimates the adhesion of contacting arbitrary rough surfaces taking into account that asperities deform according to one of the three deformation regimes (elastic, elasto-plastic and plastic). The deformation of the contacting asperities is determined by the material properties, the asperity characteristics as well as the surface topography. Results show that even outside the bonding regime the specific bonding energy is still high enough to cause adhesive problems for microstructures.
Item Type:Conference or Workshop Item
Electrical Engineering, Mathematics and Computer Science (EEMCS)
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