TY - JOUR
U1 - Zeitschriftenartikel, wissenschaftlich - begutachtet (reviewed)
A1 - Khaderi, Syed N.
A1 - Fleck, Norman A.
A1 - Arzt, Eduard
A1 - McMeeking, Robert M.
T1 - Detachment of an adhered micropillar from a dissimilar substrate
JF - Journal of the Mechanics and Physics of Solids
N2 - The mechanics of detachment is analysed for 2 D flat-bottomed planar pillars and 3 D cylindrical pillars from a dissimilar elastic substrate. Application of an axial stress to the free end of the pillar results in a singularity in stress at the corner with the substrate. An eigenvalue analysis reveals that the stress field near the corner is dominated by two singular eigenfields having eigenvalues (λ 1 ,λ 2 ) with corresponding intensities (H 1 ,H 2 ). The asymptotic stress field σ ij is of the form σ ij = H 1 r λ1-1 f ij (λ 1 , θ)+H 2 r λ2−1 f ij (λ 2 , θ) , where f ij describe the angular dependence θ of σ ij , and r is the radial distance from the corner. The stress intensities (H 1 ,H 2 ) are calculated numerically, using a domain integral approach, as a function of the elastic mismatch between the pillar and substrate. The singular zone extends across approximately 10% of the pillar diameter (in 3 D) or pillar width (in 2 D). Interfacial failure is predicted for an assumed crack emanating from the corner of pillar and substrate. For the case of an interfacial crack that resides within the domain of corner singularity, a boundary layer analysis is performed to calculate the dependence of the interfacial stress intensity factor K upon (H 1 ,H 2 ). When the crack extends beyond the domain of corner singularity, it is necessary to consider the full geometry in order to obtain K. A case study explores the sensitivity of the pull-off stress to the flaw size and to the degree of material mismatch. The study has implications for the optimum design of adhesive surface micropatterns, for bonding to either stiffer or more compliant substrates.
KW - micropillar detachment
KW - fibrillar adhesion
KW - bio-inspired adhesion
KW - micro-pillar pull-off
KW - interfacial fracture mechanics
Y1 - 2015
UN - https://nbn-resolving.org/urn:nbn:de:bsz:291:415-3797
SN - 0022-5096
SS - 0022-5096
U6 - https://doi.org/10.1016/j.jmps.2014.11.004
DO - https://doi.org/10.1016/j.jmps.2014.11.004
VL - 75
SP - 159
EP - 183
ER -