PISTON KIT 01-13 KX85 48.50 A, PROX 01.4121.A
ProX Piston Kit 48.50mm Bore. Ready to install, ProX Piston Kits are supplied complete with piston rings, wrist pin, and circlips. ProX pistons are precision machined on the latest, state of the art CNC equipment and use the same low-expansion, low-friction piston alloy all major Japanese engine manufacturers use. Uses an OEM style tin coating to assist the break-in process. Piston kit size A. Manufacturer part number 01.4121.A. Weight 150g.
- SKU
- 56-W782.A.PX
- Brand
- Pro-X Racing
- Availability
- In Stock (1)
FULL DESCRIPTION
ProX Piston Kit for 2-Stroke Engines - 48.50mm Bore
Enhance your engine's performance and reliability with this precision-engineered ProX Piston Kit. Designed for 2-stroke applications, this kit features a 48.50mm bore, ensuring a perfect fit and optimal compression for your specific engine needs.
Each ProX Piston Kit is meticulously crafted and ready for immediate installation. We provide all the essential components, including high-quality piston rings, a durable wrist pin, and secure circlips, to ensure a complete and professional repair or rebuild.
ProX pistons are manufactured using cutting-edge CNC machinery, guaranteeing exceptional accuracy and consistent quality. We utilize a premium low-expansion, low-friction piston alloy, identical to the materials chosen by leading Japanese engine manufacturers. This advanced alloy contributes to superior durability, reduced wear, and improved overall engine efficiency.
To facilitate a smooth and successful break-in process, ProX pistons are treated with an OEM-style tin coating. This specialized coating aids in initial lubrication and helps the piston and cylinder walls bond effectively, leading to longer engine life.
- 48.50mm Bore Piston Kit
- Complete with Piston Rings, Wrist Pin, and Circlips
- Precision Machined on State-of-the-Art CNC Equipment
- Constructed from Low-Expansion, Low-Friction Piston Alloy
- Uses OEM Style Tin Coating for Improved Break-In
- High-Quality Components for Reliability and Performance


