Anomalous frictional behavior in collisions of thin disks

Abstract

We report on 2D collision experiments with 9 thin Delrin disks with variable axisymmetric mass dis-tributions. The disks floated on an air table, and collided at speeds of about 0.5 to 1.0 m/s with a flat-walled stationary thick steel plate clamped to the table. The collision angle was varied. The observed normal restitution was roughly independent of angle, consistent with other studies. The fric-tional interaction diered from that reported for spheres and thick disks, and from predictions of most standard rigid-body collision models. For \sliding " 2D collisions, most authors assume the ratio of tangential to normal impulse equals (friction coecient). The observed impulse ratio was appreciably lower: roughly =2 slightly into the sliding regime, approaching only for nearly grazing collisions. Separate experiments were conducted to estimate ; check its invariance with force magnitude; and check that the anomalies observed are not from dependence on velocity magnitude. We speculate that these slightly anomalous ndings are related to the 2D deformation elds in thin disks, and with the disks being only \impulse-response " rigid and not \force-response " rigid.