August 14, 2020

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Photo courtesy of Honda.

By Pei Yi Lim

Tightening emissions regulations combined with a need for improved fuel economy and demands for enhanced user experience are driving change in the motorcycle market. The latest balanced motorcycle oil formulations are being designed to meet these requirements while maintaining hardware durability.

Photo courtesy of Honda.

As governments work to cut emissions, regulations are being more widely introduced and tightened for motorcycles. In Europe, for example, Euro V standards will apply to all sales of two- and three-wheeled vehicles from 2020. This means reporting of carbon dioxide (CO2) emissions as part of the type approval process will be required. In India, which is now the world’s largest motorcycle market with 17.7 million two-wheeler sales last year, change is also under way. Here, a draft notification of Bharat Stage (BS) VI emission standards, equivalent to Euro VI, has been issued and will take effect throughout the country for two- and three-wheelers manufactured on or after 1 April 2020.

Future regulations not only limit tailpipe emissions, but also mean bikes will have to pass an evaporative emissions test, run on-board self-diagnostic systems (OBD), and manufacturers will need to prove the bike will still pass the tests after a specified mileage.

OEMs will need to significantly improve engine performance and introduce aftertreatment systems to comply. However, meeting these emissions limits is only one issue. They will also need to address sustainability requirements and meet demands from their customers for an enhanced riding experience.

In our view, meeting all these requirements could be a very hard balance to strike — for both OEMs and oil formulators. In terms of fuel economy for example, reducing engine friction improves fuel economy through the positive impact on engine response and power output. But, it is essential to understand exactly what is influencing fuel economy in this case. By doing so, additive technology can be developed that ensures the required fuel economy is delivered while maintaining high clutch friction, hardware protection and durability, all of which are essential for motorcycles.


Photo courtesy of Infineum.

The Stribeck curve broadly categorizes friction regimes for lubricated surfaces into boundary, mixed and hydrodynamic lubrication. To improve lubricant-derived fuel economy, friction may be reduced by selecting formulation levers that are appropriate for each lubrication regime.

In the boundary regime, the oil film thickness may be reduced to such a degree that metal-to-metal contact occurs between the moving surfaces. Here, surface-active components such as friction modifiers, detergents and anti-wear additives are effective. However, in the hydrodynamic regime, moving surfaces are separated by the pressure of a continuous oil film. Fuel economy is related to lubricant viscosity, where the viscometric properties of additive components and base stocks have the strongest impact.

This presents a technical dilemma in that using friction modifiers and lowering viscosity, which are key fuel economy enablers, appear contrary to the lubrication needs of a motorcycle.

For example, the addition of a friction modifier can lower clutch friction, which could result in clutch slippage in motorcycles using wet clutch systems. Similarly, formulating to a lower viscosity grade may compromise durability and wear protection, especially in high temperature and high shear conditions.

Infineum initiated a research and development program to assess if these technical contradictions can be overcome by developing a balanced formulation containing the optimal blend of additive components. Initially, a series of bench friction tests was used to screen possible candidates.

The Schwingung Reibung Verschleiss (SRV) and High Frequency Reciprocating Rig (HFRR) tests were used to simulate boundary friction between metal-to-metal contact and the Mini Traction Machine (MTM) was used to simulate hydrodynamic friction regime. The candidates screened included a range of friction modifiers, detergents and dispersants. Friction modifiers and detergents give rise to surface effects, which alter the boundary friction properties, while dispersants are viscosity-influencing and affect hydrodynamic friction.

Following the screener tests, Infineum developed an SAE 5W-30 prototype motorcycle oil using the components that during bench screening delivered the most engine friction credit. This prototype was optimized to achieve JASO SL quality and MA2, which is the highest clutch friction level in the JASO 2016 specification.

In bench tests, the oil achieved lower engine friction and similar gear protection performance to a benchmark SAE 10W-30 OEM Genuine Oil marketed as JASO SL and MA performance.


Photo courtesy of Infineum.

Fuel consumption tests were run under World Motorcycle Test Cycle (WMTC) test conditions in a chassis dynamometer test using a 110cc, air-cooled motorcycle with a manual transmission, a type generally used for delivery purposes. The test oil was formulated to three different viscosity grades (SAE 5W-30, 10W-30 and 10W-40) with a fuel economy viscosity modifier (FE VM) and run against the same bench- mark oil. The FE VM was designed with excellent viscosity control at both low and high temperatures to deliver measurable fuel efficiency improvements and wear protection.

The new SAE 5W-30 fuel economy oil delivered 1% fuel economy improvement (FEI) vs. the OEM Genuine SAE 10W-30 benchmark motorcycle oil. This exceeded the standard deviation of the test implying that the FEI is significant. In addition, the SAE 10W-30 and 10W-40 oils also achieved positive FEI.

By reducing engine friction the fuel economy oil offers added power to the engine and, at the same time delivers high clutch friction in motorcycles with manual transmissions. OEMs can also be confident that these performance enhancements have been achieved with phosphorus levels at the minimum limit for the JASO T903 2016 specification.

Gaining a thorough understanding of all the factors influencing fuel economy in engine oil formulations has made it possible to develop a motorcycle oil that offers fuel economy improvement while also delivering other attributes essential for motorcycle performance and protection.

Pei Yi Lim is a lubes product development technologist with Infineum Singapore’s Marketing & Technology Division. She is in charge of research and development of automotive lubricants, specializing in developing additives for motorcycle engine oils. She graduated with a Master’s Degree in Engineering from the Nation- al University of Singapore and joined Infineum in 2014.

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