Analysis of point-contact models of the bounce of a hard spinning ball on a compliant frictional surface

TL;DR

This paper develops a comprehensive model of a spinning ball bouncing on a compliant surface, analyzing slip and roll transitions, and compares theoretical predictions with experimental golf ball bounce data.

Contribution

It introduces a general finite-time bounce model incorporating elasto-plastic contact and friction, revealing slip reversal conditions and the dominance of slip at lift-off.

Findings

Slip reversal occurs only with tangential compliance.

Most lift-offs happen under slip conditions, not pure roll.

A dividing surface separates backspin and topspin lift-offs.

Abstract

Inspired by the turf-ball interaction in golf, this paper seeks to understand the bounce of a ball that can be modelled as a rigid sphere and the surface as supplying an elasto-plastic contact force in addition to Coulomb friction. A general formulation is proposed that models the finite time interval of bounce from touch-down to lift-off. Key to the analysis is understanding transitions between slip and roll during the bounce. Starting from the rigid-body limit with a an energetic or Poisson coefficient of restitution, it is shown that slip reversal during the contact phase cannot be captured in this case, which result generalises to the case of pure normal compliance. Yet, the introduction of linear tangential stiffness and damping, does enable slip reversal. This result is extended to general weakly nonlinear normal and tangential compliance. An analysis using Filippov theory of piecewise-smooth systems leads to an argument in a natural limit that lift-off while rolling is non-generic and that almost all trajectories that lift off, do so under slip conditions. Moreover, there is a codimension-one surface in the space of incoming velocity and spin which divides balls that lift off with backspin from those that lift off with topspin. The results are compared with recent experimental measurements on golf ball bounce and the theory is shown to capture the main features of the data.