429 LS3 Long Block
The ‘Forth Generation’ LS3 based engine crushes the competition in Chevy Performance with a light-weight, all-Aluminum LS3 Block. Our noteworthy 429 LS3 Long Block Engine starts with a Brand New GM 6.2L High-Alloy Aluminum Block and a proven 4340 Forged Steel, 4.125" Stroker Crankshaft. For added strength, we use 4340 Forged H-Beam Rods and 10.7 to 1 Forged Pistons. Our PM CNC Proprietary LS3 Rectangle Port 255-cc Aluminum Heads deliver impressive power that is sure to deliver miles of very fast smiles. Hot Rod, Show-and-Go or Weekend Racer, this engine will exceed expectations.
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|Torque:||500+ Varies with camshaft|
|Bore/Stroke:||4.070 x 4.125|
|Fuel Type:||Premium Pump Gas|
|Block:||Aluminum LS3, New|
|Crankshaft:||4340 Forged Steel|
|Rods:||4340 Forged H-Beam|
|Pistons:||4032 Forged Aluminum|
|Heads:||Aluminum LS3 - CNC Ported|
|Valves:||2.165 / 1.590|
|Rocker Arms:||Steel / Roller Trunion Upgrade|
|Oil Pan:||Chevy Performance Muscle Car|
|Valve Covers:||Not Included|
|Power Adder:||Not Included|
|Fuel Delivery:||Not Included|
Dyno testing not included in long block price. Here at Prestige Motorsports, our “Dyno Promise” means that we dyno test every engine we build to verify the quality of our work, the integrity of each component, and the reliability of every engine we construct. Then, we deliver the dyno results for your project directly to you, the customer. Hours for dyno testing will be calculated with the purchase of the fuel and ignition group per engine order.
Engines will produce +/- 2% of advertised power at the flywheel. Advertised power levels are achieved using an electric water pump and specific induction and exhaust systems. Power will vary after pulley systems are installed or if changes are made to the induction or exhaust system (e.g. camshaft, cylinder head, compression, intake manifold, exhaust headers, air filters, etc.). Chassis dyno results measure power at the wheels and only calculate flywheel horsepower. Wheel horsepower is affected by a variety of vehicle-specific criteria including driveline design, body and chassis flex, air intake location, etc. Therefore, calculating flywheel horsepower from wheel horsepower is not an accurate representation of actual flywheel horsepower.