King racing bearings for the BMW S54.
This concerns the STDX version of the bearing. This means 0.025mm more clearance, suitable for racing applications where the engine mainly experiences high temperatures and specific racing oil
Below is a lot of technical data about what makes these bearings stronger or better than standard bearings. King bearings are equipped with a DLC coating from the F1 (Koenigsegg also uses King bearings, for example) which ensures that if your S54 squeezes the oil out between the bearings because it can build up too much pressure at higher revs, it is still lubricated. through a very hard but also extremely smooth layer.
King Factory applied nano-composite polymer coating - without added thickness!
King's new pMaxKote™ is a nano-composite polymer coating. It is applied over the pMaxBlack™ overlay at the King factory as part of the bearing manufacturing process. It improves wear resistance without changing the original precision wall thickness dimension of the bearing.
King's pMaxKote™ is a new approach to coated bearings. It has been proven to protect bearings during metal-to-metal contact, as well as against the erosive effects of cavitation. It contains ceramic nano-composite particles that function as a fourth layer that provides superior protection.
pMaxKote™ enhances the following benefits of King XP racing bearings:
• Superior attack resistance
• Superior cavitation resistance
• Superior wear resistance
• Superior protection against oil loss
pMaxBlack™ tri-metallic structure
Intermediate layer
The interlayer of a typical bearing contains 2-3% tin, with hardness values of 90-95 HV. For a superior pMaxBlack™ interlayer, we increased the tin content to 4.5%, making it 22% harder at 115 HV, with a load rating of 17,000 psi.
pMaxBlack™ overlay
The overlay of a typical high-performance bearing consists of a leaded alloy containing 2-3% copper. It achieves a hardness rating of 11-14 HV and a maximum load capacity of 8,000-8,500 psi.
King's pMax Black™ overlay is significantly stronger than conventional overlays due to its 5% copper content and an innovative nanoscale hardening process.