Notice: Product Images may differ from the actual product. Image may be a representation of this item.
Professional Ford 4.6L/5.4L Modular Piston – 3.552 in. Bore – 1.220 .in CH, -13.00 CC
Your Price: $173.24
SKU: 60087LXS
In Stock
–
Wiseco Ford 4.6L/5.4L Modular Piston, 3.552 in. Bore, 1.220 in. Compression Height, 0.866 in. Pin Diameter, Professional, Set of 1.
Professional Series forged racing pistons from Wiseco are no-expense-spared pistons designed for the serious racers and builders. Packed full of custom-level performance and durability features and provided with premium rings, Professional Series pistons are designed and built for use in heavy to severe duty race builds. Remove your limits with Wiseco’s Professional Series.
- Engineered, forged, and machined in the USA from 2618 aluminum for improved tensile strength
- ArmorGlide® Skirt Coating: seizure resistant, friction reduction, and quieter operation
- Fully machined crown features
- Precision ring grooves, anti-detonation groove, and additional ring seal improving features
- Forced pin oiling
- Designed and built to withstand heavy to severe duty performance applications
GTIN: 00193564098955
Product Series | Professional |
---|---|
Bore Diameter | 3.552 IN |
Compression Height | 1.220 IN |
Piston Volume | -13.00 CC |
Piston Material | 2618 |
Skirt Coating | Yes |
Forging Type | Strutted |
Piston Quantity | 1 |
Ring Set Included | Yes |
Top Compression Ring Thickness | 1.5 MM |
Second Compression Ring Thickness | 1.5 MM |
Oil Ring Thickness | 3.0 MM |
Wrist Pin Included | Yes |
Wrist Pin Material | 5115 |
Wrist Pin Outer Diameter | 0.866 IN |
Makes
Engines
Instructions: Enter a value in the un-shaded boxes below as they pertain to your engine.
Note: For pistons BELOW the block @ TDC – value in box must be a POSITIVE number (.000)
Note: For pistons ABOVE the block @ TDC – value in box must be a NEGATIVE number (-.000)
Note: For a DISH piston – value in box must be a POSITIVE number (0.0)
Note: For a DOME piston – value in box must be a NEGATIVE number (-0.0)
Note: Manipulate the DOME/DISH & PISTON to DECK volumes to get the ratio you want.