Piddly puddle peril: little water pools foil road friction.The friction between a car tire and the underlying asphalt drops off dangerously in rainy weather. Now, physicists in Germany and Italy have proposed an explanation for how even slight wetness can cut road-to-rubber friction. Most, if not all, of the friction between a tire and a typical and has nothing to do with attractive intermolecular forces intermolecular forces, forces that are exerted by molecules on each other and that, in general, affect the macroscopic properties of the material of which the molecules are a part. Such forces may be either attractive or repulsive in nature. between the tire rubber and the road material, says theoretical physicist Bo N.J. Persson of the Research Center Julich in Germany. Instead, by a mechanism dubbed bulk friction, the rubber of a moving tire briefly presses down into small pits in the road surface. As those ups and downs ups and downs pl.n. Alternating periods of good and bad fortune or spirits. ups and downs Noun, pl alternating periods of good and bad luck or high and low spirits of road topography jostle the tire, they cause vibrations. Those vibrations heat the rubber, dissipating some of the tire's kinetic energy kinetic energy: see energy. kinetic energy Form of energy that an object has by reason of its motion. The kind of motion may be translation (motion along a path from one place to another), rotation about an axis, vibration, or any combination of and causing a drag on Verb 1. drag on - last unnecessarily long drag out last, endure - persist for a specified period of time; "The bad weather lasted for three days" 2. the car's motion, scientists have theorized. Unlike most other forms of friction, which take place at the interface between two materials, "rubber friction is very special, at least on rough materials. The energy is dissipated a little [way] inside the rubber," Persson says. Small amounts of water reduce this friction. Persson and his colleagues have now simulated this effect by using an optical scan of a sample--l.5 centimeter by 1.5 cm--of actual road. The researchers calculated the consequence of filling that surface with just enough fluid to top off all the small divots without causing them to overflow. Persson notes that the actual contact region between a tire and the road is a narrow strip that runs the width of the tire. As the strip pushes down on the water-filled roadway, the tire rubber seals the edges of each of the pools, preventing the water from leaking out. That sealing converts each pool of trapped water into an incompressible in·com·press·i·ble adj. Impossible to compress; resisting compression: mounds of incompressible garbage. in barrier beneath the tire rubber. "Then, the rubber becomes unable to reach out and touch the bottom of the puddle. If it doesn't touch the bottom, that contribution to the vibration is canceled," says Erio Tosatti of the International School for Advanced Studies The International School for Advanced Studies (Italian: Scuola Internazionale Superiore di Studi Avanzati, SISSA) instituted on 1978, is a post-graduate teaching and research institute with a special statute. in Trieste, Italy, a coauthor of the new road-friction report. Multiply that loss by many puddles, and both road friction and driver control take a dive Verb 1. take a dive - pretend to be knocked out, as of a boxer dissemble, feign, pretend, sham, affect - make believe with the intent to deceive; "He feigned that he was ill"; "He shammed a headache" . The team proposes that friction-thwarting mechanism in the December Nature Materials. Gert Heinrich of the Leibniz Institute of Polymer Research in Dresden, Germany, a theoretical physicist who co-developed a different version of the bulk-friction theory, calls the new report "an important contribution" to understanding why fires are more apt to slip when roads are wet or even just damp. Calculations based on the new theory agree with the 20 to 30 percent friction losses actually measured for tires braking without skidding on wet roads, Persson and his colleagues claim. However, the new findings apply only to vehicles moving slower than 60 kilometers per hour on slightly wet surfaces. At greater speeds and on inundated in·un·date tr.v. in·un·dat·ed, in·un·dat·ing, in·un·dates 1. To cover with water, especially floodwaters. 2. roads, a well-understood type of more-drastic friction loss known as hydroplaning Hydroplaning and hydroplane may refer to:
In that ease, a thin film of water coats the road surface, Tosatti notes. The car's tires "fly" along on that film, he adds, with no road contact and total loss of driver control. |
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