If you’ve ever found yourself skidding on leaves you’ll know that on the road – especially in the autumn – they can be a significant hazard for drivers…
They may be a crucial ingredient in creating the stunning autumnal landscapes so beloved by photographers, but in certain situations – when they are wet and in multiple layers – leaves can present a significant danger to drivers.
Those in the know have long compared the effect to driving on snow. But could the humble leaf really be as slippery as the white stuff? A group of Ford engineers have come up with an answer – after conducting a unique experiment in order to find out.
Getting the data for the snow was the easy part. This was sourced from vehicle testing in snowy Scandinavian locations. But there was no research to show how slippery leaves were. To fix that, the team gathered bags of leaves and used them to cover the test track at the company’s proving ground in Belgium. They then called in the help of a friction-testing device that identifies how slippery surfaces are by rolling over them.
After testing they did indeed find that, in certain situations, the leaves were as slippery as snow.
“It was fun to conduct the experiment but there was a serious point,” said Eddy Kasteel, development engineer, Ford of Europe. “Most people know to slow down and drive more cautiously for snow. But far fewer of us give the same respect to roads covered in leaves – that can be just as slippery.”
Slipperiness is measured in units called µ. The more slippery the surface the lower the number. In testing, and at their most slippery, the leaves measured a µ level between 0.3 and 0.4. Typically, the same µ levels observed on snow surfaces
The same engineers helped to develop “Slippery Mode” for the all-new Ford Focus Active crossover that goes on sale next month. Designed to improve traction on surfaces including ice snow and wet leaves, the system makes rapid readjustments to stability systems, acceleration and braking to help prevent the car from skidding, swerving or deviating from its intended path.