The Future for Bearings is Electric
Bearings, although buried deep within the vehicle, are on the front line in contributing to drivetrain efficiencies and delivering reliability for automotive manufacturers. Let’s have have a look at the new demands EV drivetrains are placing on components such as bearings and how these can be overcome.
by Thomas M. Wolf
Breakthroughs in technologies such as batteries, power management electronics and electric motors have paved the way for the dramatic emergence of electric mobility, but every aspect of the EV drivetrain is being advanced in the push for efficiency and reliability. In particular, EV drivetrains are placing new demands on components such as bearings. The push for efficiency throughout the drivetrain is prompting original equipment manufacturers to explore new low-friction approaches rather than the conventional tapered roller bearings that are found in gearboxes and differentials. Thomas M. Wolf, Application Engineering Master, power train and electrical at SKF, explains how the new demands placed on components by EV drivetrains can be overcome.
The high speeds of electric motors place enormous strain on bearings
Another challenge is the high speed of the electric motors in EVs up to 30,000 rpm speeds, far higher than those found in most industrial applications, are needed to ensure the drivetrain works efficiently.
The speed acceleration and temperatures generated by these machines place enormous strain on bearings and their components such as cages and rolling elements. Bearings running at such high speeds also need effective lubrication and cooling. Without this, there is a high risk of rapid degradation of the bearing components. Both races and rollers may overheat, causing premature failure and the need for early replacement.
In addition to high rotational speeds, electric motors can also present further challenges for bearings through electrical discharges. High-frequency voltage switching of the motor inverter can result in current leakage. This current can be conducted through the bearings causing arcs in the rolling contacts and may result in surface fatigue and erosion. Manufacturers are also developing special lubricants with lower viscosity and special additives in order to reduce power losses from friction and support operations at far higher speeds.
However, lower viscosity lubrication can also have an impact on the wear and fatigue characteristics of bearings. Accelerated wear can result in catastrophic failure, having an obvious impact on reliability.
Solving the challenge of EV bearings
In response to these new demands, manufacturers such as SKF are investing in new technological developments and adapting or redesigning conventional bearings. By redesigning elements such as the polymer cage, rolling components and using special lubricating grease for example, customized and hybrid bearings are already solving some of the fundamental issues that can affect reliability in electric vehicles.
In terms of electrical discharge, ceramic ball bearings are currently the most attractive solution given that ceramics are typically electrically insulating materials. While using ceramic rolling elements to create a so-called hybrid bearing resolves this issue there are other associated benefits too. For instance, having roughly half the density of their steel equivalents, ceramics are lighter and therefore tend to run at lower temperatures. In addition, ceramic bearings are much harder than steel so last up to 10 times longer, typically requiring less lubrication.
Although currently only around 5% of bearings in EV applications are hybrids featuring ceramic elements, this is beginning to change. The value that hybrid units offer in reliability and extended service life is becoming increasingly recognized and acknowledged.
Carbonitriding bearing raceways is another solution being explored
Another solution that is being explored is carbonitriding bearing raceways for applications where bearings are exposed to contamination or poor lubricants. Carbonitriding increases the surface hardness and consequently, as with ceramics, increases the in-service lifetime.
As the global EV market continues to expand, many more advanced ways of dealing with all the specific conditions required for EVs are also under development. These include special greases that maintain a stable viscosity at higher speeds and temperatures.
Bearings rolling out EV market growth
According to an International Energy Agency analysis published in 2019, the global EV fleet is now well above 5 million vehicles. A study from market research company, Frost and Sullivan, stated that the volume of global sales almost doubled in a single year (from 2017 to 2018) and China remains the world’s largest electric car market. This segment is expected to continue to dominate the market. Given the new constraints linked to EV technology development, the bearing contribution to the overall system behaviors should not be underestimated. Manufacturers such as SKF are determined to ensure that bearings are fit for the future with improvements in performance, efficiency and reliability.