King Racing Bearings have been a trusted name in the automotive industry for over 50 years. With a commitment to innovation and quality, King Racing Bearings are designed to provide the highest level of performance and durability. In this article, we'll delve into the world of King Racing Bearings, exploring their benefits, features, and the secrets behind their exceptional performance.
Founded in 1964, King Racing Bearings was born from a passion for racing and a desire to create bearings that could withstand the extreme demands of high-performance engines. Today, King Racing Bearings are used by professional racers, performance enthusiasts, and engine builders worldwide.
1. Reduced Friction: King Racing Bearings are designed with a unique surface finish that reduces friction and improves power output.
2. Increased Durability: King Racing Bearings are made from high-quality materials and precision engineered to withstand extreme loads and temperatures.
3. Improved Oil Flow: King Racing Bearings feature a unique oil groove design that promotes optimal oil flow and reduces wear.
4. Reduced Noise and Vibration: King Racing Bearings are designed to minimize noise and vibration, providing a smoother and more comfortable driving experience.
Feature | Benefit |
---|---|
Proprietary surface finish | Reduced friction and increased power output |
High-quality materials and precision engineering | Increased durability and longevity |
Unique oil groove design | Improved oil flow and reduced wear |
Optimized bearing clearance | Reduced noise and vibration |
Installing King Racing Bearings is a critical step in ensuring their proper function and longevity. Here are some key steps to follow:
1. Proper Preparation: Clean the bearing surfaces and apply a thin layer of assembly lube to the bearings.
2. Accurate Alignment: Align the bearings carefully with the crankshaft and connecting rods.
3. Torque to Specification: Tighten the bearing caps to the specified torque using a torque wrench.
4. Post-Installation Inspection: Inspect the bearings for any signs of damage or misalignment.
Step | Description |
---|---|
Preparation | Cleaning and assembly lubrication of bearing surfaces |
Alignment | Careful alignment of bearings with crankshaft and rods |
Tightening | Torque bearing caps to specified values using a torque wrench |
Inspection | Examination of bearings for damage or misalignment |
1. Clevite 77 Bearings: King Racing Bearings' Clevite 77 Bearings are made from a high-performance copper-lead alloy that provides exceptional durability and reduced friction.
2. Dry Film Lubricant: King Racing Bearings are coated with a dry film lubricant that reduces friction and wear during initial engine start-up.
3. Tri-Metal Bearing Construction: King Racing Bearings feature a tri-metal construction with a steel back, copper-lead middle layer, and a conformable babbitt facing.
Feature | Benefits |
---|---|
Clevite 77 alloy | Exceptional durability and reduced friction |
Dry film lubricant | Reduced friction and wear during initial engine start-up |
Tri-metal construction | Optimal performance under extreme loads and temperatures |
1. What is the recommended bearing clearance for my engine? Check the manufacturer's specifications or consult with an experienced mechanic.
2. How often should I replace my bearings? Bearing replacement intervals vary depending on driving conditions and engine usage.
3. Can I use King Racing Bearings in a street car? Yes, King Racing Bearings provide exceptional performance and durability for both race and street applications.
1. Use a torque wrench: Ensure proper bearing cap tightening and prevent over-tightening.
2. Check oil pressure: Monitor oil pressure to ensure adequate lubrication and bearing performance.
3. Inspect bearings regularly: Remove bearings periodically for inspection and replacement if necessary.
4. Use a high-quality oil filter: Maintain clean oil to prevent bearing contamination and damage.
5. Avoid over-revving: Reduce engine wear and bearing stress by avoiding excessive RPMs.
6. Break in engine properly: Follow manufacturer's break-in procedures to ensure optimal bearing performance.
1. Over-tightening: Exceeding recommended torque specifications can damage bearings and crankshaft.
2. Misalignment: Improper bearing alignment can lead to premature bearing failure and engine damage.
3. Inadequate oil flow: Restricted oil flow can starve bearings of lubrication and cause overheating and wear.
4. Contamination: Dirt, debris, and metal particles can contaminate bearings and accelerate wear.
5. Over-revving: Excessive engine speeds can put excessive stress on bearings and lead to failure.
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