Generation 2 device from VESevo enables non-destructive tire testing

VESevo has announced the launch of its Generation 2 device for non-destructive measurement of the viscoelasticity of tires.

Unlike conventional tire testing devices that require a tread sample to be removed from a tire’s surface, VESevo’s latest device enables the analysis of tires quickly and efficiently without making the tested tires unusable.

The company’s latest-generation device delivers a range of benefits for users on the racetrack, such as being able to predict adhesive and hysteretic grip and even a tire’s optimal thermal working range. Furthermore, the device can aid in selecting the correct tire compound for a team’s strategy by delivering reliable data on a tire’s performance.

VESevo’s device can also be used within a production or manufacturing environment as it enables engineers to monitor the quality and uniformity of tires in addition to helping to determine the best thermal curing cycles.

To date, the VESevo Generation 2 device has been used within some of the motorsport industry’s top disciplines including Formula 1, Formula E, the World Rally Championship and MotoGP.

“VESevo’s Generation 2 is a non-destructive device for testing the viscoelasticity of tire tread compounds. Directly on track or wherever you are, the device is able to categorize the properties and the loss factor of the tire,” commented Andrea Genovese, CEO of VESevo. “This means you are able to predict the behavior and the working range of the tire during a race. The most powerful aspect of the device is that it is totally portable, and you put it onto the tire without any destructive or invasive effects.”
1 Click and the Racing
Industry is Right Here.
Not registered yet ?
Join for free - click here
x We use cookies and other tracking technologies to improve your browsing experience on our website, to show you personalized content and to analyze our website traffic. By browsing our website, you consent to our use of cookies and other tracking technologies.