A laboratory scale model technique for investigating pneumatic tire hydroplaning

Laboratory scale model technique for investigating pneumatic tire hydroplanin

Effects of space cabin environments on infection Final report, 19 Jul. 1965 - 18 Sep. 1966

Infection resistance and radiation effects on mice determined after varied exposures to space cabin environment and ambient condition

A systematic experimental investigation of significant parameters affecting model tire hydroplaning

The results of a comprehensive parametric study of model and small pneumatic tires operating on a wet surface are presented. Hydroplaning inception (spin down) and rolling restoration (spin up) are discussed. Conclusions indicate that hydroplaning inception occurs at a speed significantly higher than the rolling restoration speed. Hydroplaning speed increases considerably with tread depth, surface roughness and tire inflation pressure of footprint pressure, and only moderately with increased load. Water film thickness affects spin down speed only slightly. Spin down speed varies inversely as approximately the one-sixth power of film thickness. Empirical equations relating tire inflation pressure, normal load, tire diameter and water film thickness have been generated for various tire tread and surface configurations