Stroker Kit
Encyclopedia
A Stroker kit is an aftermarket assembly that increases the displacement
of a reciprocating engine
by increasing the travel of the piston (that is, the piston moves further up and/or down in the cylinder). This is done by using a different crankshaft
where the crank pin is moved further away from the center of the axis of rotation of the crankshaft. While this increases displacement and torque
it can potentially lower the limit to which the motor can rev safely compared to the stock configuration.
First, and most important, the crankshaft's rod journals are physically farther from the main journals than on the original equipment. A given extension in the distance between the rod and main journals results in twice that distance in increase of piston travel. For example, in a Chrysler LA (1971-1992) 360 cubic inch (5.9 l) V8, the rod journal centerline is 1.79 in (4.55 cm) from the main journal centerline. The piston travels 3.58 in (9.1 cm) in this configuration. When this engine is modified with a 402 cubic inch (6.6 l) stroker kit, the distance between the main journal centerline and the rod journal centerline is increased to 2.00 in (5.08 cm), which results in the piston travelling 4.00 in (10.16 cm). So, the modified crankshaft with 0.21 in (0.53 cm) further distance between the main and rod journals results in 42 cubic inches (.7 ) of displacement greater than the engine had before.
The second key characteristic of a stroker kit versus OEM is the required changes to allow a stroked crank to 'fit'. This is accomplished in one of three ways:
▪ Location of the piston pin (and the top of the rod) within the piston, or the compression height is shortened.
▪ Length of the rod is shortened.
▪ Height of the cylinder is lengthened.
Option One - Shorter Piston:
The stock Chrysler LA engine in the example above has a main to rod bearing centerline distance of 1.79 in (4.55 cm), a rod that is 6.123 in (15.55 cm) long, and a piston that is 1.67 in from piston pin centerline to top, depending on the application. As the engine stroke is increased in the example above, the 402 cubic inch (6.6 l) configuration would place the piston 0.21 in (0.53 cm) higher in the cylinder at top dead center, and with a distance of 9.585 in (24.36 cm) from crankshaft main centerline to deck, the piston would protrude about 0.21 in (0.53 cm) higher than the top deck, or would collide with the cylinder head combustion chamber. To offset this, aftermarket pistons relocate the piston pin higher within the piston itself. This change in compression height leaves the piston with 1.462 in (3.714 cm) of material in the top portion of the piston, instead of 1.672 in (4.247 cm) as is stock.
Option Two - Shorter Rod:
Powroll is a company that has offered stroked cranks for single-cylinder motorcycles and ATV's since the early 1960s. Their stroke process involves installing an offset bushing in the stock crank weights to move the crank pin location further out from centerline - increasing the stroke.
Most Powroll stroked cranks also utilize a radical process they invented called a 'shrunk rod'. A proprietary process, rod shrinking evidently involves heat and pressure to compress it to a height 1/2 the distance of the stroke increase, thus bringing the piston deck height back to original.
This process allows for the use of any stock or aftermarket piston already manufactured for that particular model, without the need of a spacer plate or piston modification.
The Powroll stroke process usually costs much less than purchasing a new crank assembly; it also uses OEM components, which have known properties and reliability.
, and also uses lever
age to make torque
more easily.
An engine with a stroked crank will usually make more overall horsepower than an engine with a bore kit with the same displacement
Large increases in stroke can decrease an engine's ability to perform optimally at high rpm. Engines used at sustained high rpm usually will be better with less stroke and more bore (oversquare).
A typical complete stroker kit is composed of the crankshaft, connecting rods, pistons, piston pins, main bearings, rod bearings, and piston rings. This assembly is also called "the rotating assembly" or "the bottom end". Many different types of each of the components can be used for different applications. Crankshafts, for example, may be either of forged or of cast manufacture. Rods may consist of I-beam or H-beam rods made of various materials, from steel to titanium. Rods may be stock length (requiring the use of either shorter pistons, or taller cylinders), or shorter length (usually utilizing stock height pistons and cylinders).
Modify a stock crankshaft for increased stroke
Some stock crankshafts can also be modified to increase stroke. This is typically more cost effective for single cylinder motorcycle
and ATV
engines.
Engine displacement
Engine displacement is the volume swept by all the pistons inside the cylinders of an internal combustion engine in a single movement from top dead centre to bottom dead centre . It is commonly specified in cubic centimeters , litres , or cubic inches...
of a reciprocating engine
Reciprocating engine
A reciprocating engine, also often known as a piston engine, is a heat engine that uses one or more reciprocating pistons to convert pressure into a rotating motion. This article describes the common features of all types...
by increasing the travel of the piston (that is, the piston moves further up and/or down in the cylinder). This is done by using a different crankshaft
Crankshaft
The crankshaft, sometimes casually abbreviated to crank, is the part of an engine which translates reciprocating linear piston motion into rotation...
where the crank pin is moved further away from the center of the axis of rotation of the crankshaft. While this increases displacement and torque
Torque
Torque, moment or moment of force , is the tendency of a force to rotate an object about an axis, fulcrum, or pivot. Just as a force is a push or a pull, a torque can be thought of as a twist....
it can potentially lower the limit to which the motor can rev safely compared to the stock configuration.
Differences from original equipment manufacturer (OEM) configurations
Two key characteristics differentiate stroker kits from OEM rotating assemblies.First, and most important, the crankshaft's rod journals are physically farther from the main journals than on the original equipment. A given extension in the distance between the rod and main journals results in twice that distance in increase of piston travel. For example, in a Chrysler LA (1971-1992) 360 cubic inch (5.9 l) V8, the rod journal centerline is 1.79 in (4.55 cm) from the main journal centerline. The piston travels 3.58 in (9.1 cm) in this configuration. When this engine is modified with a 402 cubic inch (6.6 l) stroker kit, the distance between the main journal centerline and the rod journal centerline is increased to 2.00 in (5.08 cm), which results in the piston travelling 4.00 in (10.16 cm). So, the modified crankshaft with 0.21 in (0.53 cm) further distance between the main and rod journals results in 42 cubic inches (.7 ) of displacement greater than the engine had before.
The second key characteristic of a stroker kit versus OEM is the required changes to allow a stroked crank to 'fit'. This is accomplished in one of three ways:
▪ Location of the piston pin (and the top of the rod) within the piston, or the compression height is shortened.
▪ Length of the rod is shortened.
▪ Height of the cylinder is lengthened.
Option One - Shorter Piston:
The stock Chrysler LA engine in the example above has a main to rod bearing centerline distance of 1.79 in (4.55 cm), a rod that is 6.123 in (15.55 cm) long, and a piston that is 1.67 in from piston pin centerline to top, depending on the application. As the engine stroke is increased in the example above, the 402 cubic inch (6.6 l) configuration would place the piston 0.21 in (0.53 cm) higher in the cylinder at top dead center, and with a distance of 9.585 in (24.36 cm) from crankshaft main centerline to deck, the piston would protrude about 0.21 in (0.53 cm) higher than the top deck, or would collide with the cylinder head combustion chamber. To offset this, aftermarket pistons relocate the piston pin higher within the piston itself. This change in compression height leaves the piston with 1.462 in (3.714 cm) of material in the top portion of the piston, instead of 1.672 in (4.247 cm) as is stock.
Option Two - Shorter Rod:
Powroll is a company that has offered stroked cranks for single-cylinder motorcycles and ATV's since the early 1960s. Their stroke process involves installing an offset bushing in the stock crank weights to move the crank pin location further out from centerline - increasing the stroke.
Most Powroll stroked cranks also utilize a radical process they invented called a 'shrunk rod'. A proprietary process, rod shrinking evidently involves heat and pressure to compress it to a height 1/2 the distance of the stroke increase, thus bringing the piston deck height back to original.
This process allows for the use of any stock or aftermarket piston already manufactured for that particular model, without the need of a spacer plate or piston modification.
The Powroll stroke process usually costs much less than purchasing a new crank assembly; it also uses OEM components, which have known properties and reliability.
Advantages of a stroked crank
A stroked crank increases displacementEngine displacement
Engine displacement is the volume swept by all the pistons inside the cylinders of an internal combustion engine in a single movement from top dead centre to bottom dead centre . It is commonly specified in cubic centimeters , litres , or cubic inches...
, and also uses lever
Lever
In physics, a lever is a rigid object that is used with an appropriate fulcrum or pivot point to either multiply the mechanical force that can be applied to another object or resistance force , or multiply the distance and speed at which the opposite end of the rigid object travels.This leverage...
age to make torque
Torque
Torque, moment or moment of force , is the tendency of a force to rotate an object about an axis, fulcrum, or pivot. Just as a force is a push or a pull, a torque can be thought of as a twist....
more easily.
An engine with a stroked crank will usually make more overall horsepower than an engine with a bore kit with the same displacement
Disadvantages of a stroked crank
Increased stroke makes the piston travel further up and down. Since the amount of time allowed for this movement is not increased, the piston speed increases with a stroked crank (piston must move a further distance in the same amount of time). This can sometimes cause pistons to wear more quickly.Large increases in stroke can decrease an engine's ability to perform optimally at high rpm. Engines used at sustained high rpm usually will be better with less stroke and more bore (oversquare).
Obtaining a stroked crank
Purchase a new stroked crankshaft from an aftermarket or OEM source:A typical complete stroker kit is composed of the crankshaft, connecting rods, pistons, piston pins, main bearings, rod bearings, and piston rings. This assembly is also called "the rotating assembly" or "the bottom end". Many different types of each of the components can be used for different applications. Crankshafts, for example, may be either of forged or of cast manufacture. Rods may consist of I-beam or H-beam rods made of various materials, from steel to titanium. Rods may be stock length (requiring the use of either shorter pistons, or taller cylinders), or shorter length (usually utilizing stock height pistons and cylinders).
Modify a stock crankshaft for increased stroke
Some stock crankshafts can also be modified to increase stroke. This is typically more cost effective for single cylinder motorcycle
Motorcycle
A motorcycle is a single-track, two-wheeled motor vehicle. Motorcycles vary considerably depending on the task for which they are designed, such as long distance travel, navigating congested urban traffic, cruising, sport and racing, or off-road conditions.Motorcycles are one of the most...
and ATV
All-terrain vehicle
An all-terrain vehicle , also known as a quad, quad bike, three wheeler, or four wheeler, is defined by the American National Standards Institute as a vehicle that travels on low pressure tires, with a seat that is straddled by the operator, along with handlebars for steering control...
engines.