| Amsoil Synthetic Lubricants explains 2-cycle oil applications, needs, and Amsoil's different high performance 2-cycle lubricants. |
Two-cycle Engine Applications and Lubrication Needs
This article appeared in AMSOIL Action News, July 2001
Two-cycle engines can be found nearly everywhere these days. They are used in dozens of applications and in a wide variety
of designs for everything from work and recreation to power generation. Two-cycle engines have design differences and
operate under conditions that require different oil chemistries than their four-cycle counterparts. In order to recommend a
lubricant for a two-cycle engine, one needs to know how this engine operates, why it is used in place of a four-cycle
engine and where and in what type of applications it is used.
What is a two-cycle engine?
Two-cycle motors deliver one power impulse for each
revolution of the crankshaft. The terms "two-cycle" and
"two-stroke" are often inter-changed when speaking about
two-cycle engines. These engines derive their name from the
amount of directional change that the pistons make during
each power stroke. Internal combustion engines are used to
produce mechanical power from the chemical energy
contained in hydrocarbon fuels. The power-producing part of
the motor's operating cycle starts inside the motor's cylinders
with a compression process. Following this compression, the
burning of the fuel-air mixture then releases the fuel's
chemical energy and produces high-temperature,
high-pressure combustion products. These gases then expand
within each cylinder and transfer work to the piston. Thus, as
the engine is operated continuously, mechanical power is
produced. Each upward or downward movement of the piston
is called a stroke. There are two commonly used internal
combustion engine cycles: the two-stroke cycle and the
four-stroke cycle.
How are two-cycle engines different from four-cycle engines?
A four-cycle engine requires four strokes of the piston (two up and two down) and two revolutions of the crankshaft to
complete one combustion cycle and provide one power impulse. The fundamental difference between two-cycle engines and
four-cycle engines is in their gas exchange process, or more simply, the removal of the burned gases at the end of each
expansion process and the induction of a fresh mixture for the next cycle. The two-cycle engine has an expansion, or power
stroke, in each cylinder during each revolution of the crankshaft. The exhaust and the charging processes occur
simultaneously as the piston moves through its lowest or bottom center position.
In a four-cycle engine, the burned gases are first displaced by the piston during an upward stroke, and then a fresh charge
enters the cylinder during the following downward stroke. This means that four-cycle engines require two complete turns of
the crankshaft to make a power stroke, versus the single turn necessary in a two-cycle engine. In other words, two-cycle
engines operate on 360 degrees of crankshaft rotation, whereas four-cycle engines operate on 720 degrees of crankshaft
rotation.
Where are two-cycle engines used?
Two-cycle engines are inexpensive to build and operate when compared to four-cycle engines. They are lighter in weight and
they can also produce a higher power-to-weight ratio. For these reasons, two-cycle engines are very useful in applications
such as chainsaws, Weedeaters, outboards, lawn mowers and motorcycles, to name just a few. Two-cycle engines are also
easier to start in cold temperatures. Part of this may be due to their design and the lack of an oil sump. This is a reason why
these engines are also commonly used in snowmobiles and snow blowers.
Some advantages and disadvantages of two-cycle engines
Because two-cycle engines can effectively
double the number of power strokes per unit
time when compared to four-cycle engines,
power output is increased. However, it does
not increase by a factor of two. The outputs
of two-cycle engines range from only 20 to
60 percent above those of equivalent-size
four-cycle units. This lower than expected
increase is a result of the poorer than ideal
charging efficiency, or in other words,
incomplete filling of the cylinder volume with
fresh fuel and air. There is also a major
disadvantage in this power transfer scenario. The higher frequency of combustion events in the two-cycle engine results in
higher average heat transfer rates from the hot burned gases to the motor's combustion chamber walls. Higher temperatures
and higher thermal stresses in the cylinder head (especially on the piston crown) result. Traditional two-cycle engines are also
not highly efficient because a scavenging effect allows up to 30 percent of the unburned fuel/oil mixture into the exhaust. In
addition, a portion of the exhaust gas remains in the combustion chamber during the cycle. These inefficiencies contribute to
the power loss when compared to four-cycle engines and explains why two-cycle engines can achieve only up to 60 percent
more power.
How are two-cycle engines lubricated?
Two-cycle motors are considered total-loss type lubricating systems. Because the crankcase is part of the intake process, it
cannot act as an oil sump as is found on four-cycle engines. Lubricating traditional two-cycle engines is done by mixing the
oil with the fuel. The oil is burned upon combustion of the air/fuel mixture. Direct Injection engines are different because the
fuel is directly injected into the combustion chamber while the oil is injected directly into the crankcase. This process is
efficient because the fuel is injected after the exhaust port closes, and therefore more complete combustion of fuel occurs and
more power is developed. Direct injection engines have a higher power density than traditional two-cycle engines. Because the
oil is directly injected into the crankcase, less oil is necessary and lower oil consumption results (80:1 range). Direct Injection
motors have higher combustion temperatures, often up to 120°F. They also require more lubricity than traditional two-cycle
motors.
Which AMSOIL motor oils are recommended for two-cycle engines?
AMSOIL Synthetic 2-Cycle Injector Oil (AIO) is a superior TC - W3 formulation recommended for use as an injector oil or
50:1 pre - mix oil in all 2-cycle outboard motors including, but not limited to Mercury® EFI & Optimax®, Johnson® and
Evinrude® FICHT® and E-TEC™, Yamaha® HPDI, Nissan® and Tohatsu® TLDI®, Suzuki®, Mariner® and Force®. May
also be used for summer or winter use in 2- cycle snowmobiles, jet boats, and personal watercraft including those with
catalytic converters. Compatible with most synthetic and mineral two-cycle oils, however, mixing oils should be minimized.
TC-W3 - API TC
--------------------------------------------------------------------------------
AMSOIL INTERCEPTOR™, High Performance Synthetic 2-Cycle Oil (AIT) is specially formulated to address exhaust valve
sticking found in 2-cycle motor sports applications. It provides exceptionally clean engine performance and has demonstrated
“No Stick” exhaust power valve performance during extensive Rocky Mountain snowmobile testing. INTERCEPTOR™ is
recommended for use in all 2-cycle snowmobiles, personal watercraft, motorcycles, ATV’s & jet boats including those made
by Bombardier®, Yamaha®, Arctic Cat®, Polaris®, Kawasaki®, Suzuki®, and Honda®. May be used with carbureted,
Electronic Fuel Injected (EFI) or Direct Fuel Injected (DFI) motors. Replaces all manufacturer branded 2-cycle oils! Use in oil
injection systems or as 50:1 pre-mix. Compatible with most synthetic and mineral two-cycle oils, however, mixing oils should
be minimized. API TC - JASO FC
--------------------------------------------------------------------------------
AMSOIL Series 2000 Synthetic 2-Cycle Racing Oil (TCR) is a robust formulation specially engineered for high
performance “modified” 2-cycle motors, both on and off the track. It is recommended for use in modified 2-cycle motors
where RPM, compression ratios, heat, and horsepower have been increased from stock, including, but not limited to air or
liquid cooled snowmobiles, personal watercraft, motorcycles (moto X), ATV’s, and go-carts. May be used with exhaust
power valves, coated or non-coated pistons and high-octane “racing” fuels. Use as injection oil or as 50:1 pre-mix. Compatible
with most other 2-cycle oils, however, mixing oils should be minimized. TCR is not recommended for use with alcohol or
nitro-methane fuels. API TC - JASO FC
--------------------------------------------------------------------------------
AMSOIL Pre-Mix, 100:1, Synthetic 2-Cycle Oil (ATC) is the ultimate small engine lubricant. It is recommended for API
TC, JASO FC, and ISO-EGD applications including, but not limited to chain saws, mopeds, scooters, weed eaters, lawn
mowers, leaf blowers, chop saws, go-carts, motorcycles, snowmobiles, and pumps. Mix with gasoline at 100:1 for normal
service in air or liquid cooled applications. For “Severe Duty” applications such as racing and continuously operated industrial
or commercial work motors, richer mix ratios of 50:1 to 80:1 are recommended. Not recommended for use
in oil injection systems.
This article appeared in AMSOIL Action News, July 2001
Two-cycle engines can be found nearly everywhere these days. They are used in dozens of applications and in a wide variety
of designs for everything from work and recreation to power generation. Two-cycle engines have design differences and
operate under conditions that require different oil chemistries than their four-cycle counterparts. In order to recommend a
lubricant for a two-cycle engine, one needs to know how this engine operates, why it is used in place of a four-cycle
engine and where and in what type of applications it is used.
What is a two-cycle engine?
Two-cycle motors deliver one power impulse for each
revolution of the crankshaft. The terms "two-cycle" and
"two-stroke" are often inter-changed when speaking about
two-cycle engines. These engines derive their name from the
amount of directional change that the pistons make during
each power stroke. Internal combustion engines are used to
produce mechanical power from the chemical energy
contained in hydrocarbon fuels. The power-producing part of
the motor's operating cycle starts inside the motor's cylinders
with a compression process. Following this compression, the
burning of the fuel-air mixture then releases the fuel's
chemical energy and produces high-temperature,
high-pressure combustion products. These gases then expand
within each cylinder and transfer work to the piston. Thus, as
the engine is operated continuously, mechanical power is
produced. Each upward or downward movement of the piston
is called a stroke. There are two commonly used internal
combustion engine cycles: the two-stroke cycle and the
four-stroke cycle.
How are two-cycle engines different from four-cycle engines?
A four-cycle engine requires four strokes of the piston (two up and two down) and two revolutions of the crankshaft to
complete one combustion cycle and provide one power impulse. The fundamental difference between two-cycle engines and
four-cycle engines is in their gas exchange process, or more simply, the removal of the burned gases at the end of each
expansion process and the induction of a fresh mixture for the next cycle. The two-cycle engine has an expansion, or power
stroke, in each cylinder during each revolution of the crankshaft. The exhaust and the charging processes occur
simultaneously as the piston moves through its lowest or bottom center position.
In a four-cycle engine, the burned gases are first displaced by the piston during an upward stroke, and then a fresh charge
enters the cylinder during the following downward stroke. This means that four-cycle engines require two complete turns of
the crankshaft to make a power stroke, versus the single turn necessary in a two-cycle engine. In other words, two-cycle
engines operate on 360 degrees of crankshaft rotation, whereas four-cycle engines operate on 720 degrees of crankshaft
rotation.
Where are two-cycle engines used?
Two-cycle engines are inexpensive to build and operate when compared to four-cycle engines. They are lighter in weight and
they can also produce a higher power-to-weight ratio. For these reasons, two-cycle engines are very useful in applications
such as chainsaws, Weedeaters, outboards, lawn mowers and motorcycles, to name just a few. Two-cycle engines are also
easier to start in cold temperatures. Part of this may be due to their design and the lack of an oil sump. This is a reason why
these engines are also commonly used in snowmobiles and snow blowers.
Some advantages and disadvantages of two-cycle engines
Because two-cycle engines can effectively
double the number of power strokes per unit
time when compared to four-cycle engines,
power output is increased. However, it does
not increase by a factor of two. The outputs
of two-cycle engines range from only 20 to
60 percent above those of equivalent-size
four-cycle units. This lower than expected
increase is a result of the poorer than ideal
charging efficiency, or in other words,
incomplete filling of the cylinder volume with
fresh fuel and air. There is also a major
disadvantage in this power transfer scenario. The higher frequency of combustion events in the two-cycle engine results in
higher average heat transfer rates from the hot burned gases to the motor's combustion chamber walls. Higher temperatures
and higher thermal stresses in the cylinder head (especially on the piston crown) result. Traditional two-cycle engines are also
not highly efficient because a scavenging effect allows up to 30 percent of the unburned fuel/oil mixture into the exhaust. In
addition, a portion of the exhaust gas remains in the combustion chamber during the cycle. These inefficiencies contribute to
the power loss when compared to four-cycle engines and explains why two-cycle engines can achieve only up to 60 percent
more power.
How are two-cycle engines lubricated?
Two-cycle motors are considered total-loss type lubricating systems. Because the crankcase is part of the intake process, it
cannot act as an oil sump as is found on four-cycle engines. Lubricating traditional two-cycle engines is done by mixing the
oil with the fuel. The oil is burned upon combustion of the air/fuel mixture. Direct Injection engines are different because the
fuel is directly injected into the combustion chamber while the oil is injected directly into the crankcase. This process is
efficient because the fuel is injected after the exhaust port closes, and therefore more complete combustion of fuel occurs and
more power is developed. Direct injection engines have a higher power density than traditional two-cycle engines. Because the
oil is directly injected into the crankcase, less oil is necessary and lower oil consumption results (80:1 range). Direct Injection
motors have higher combustion temperatures, often up to 120°F. They also require more lubricity than traditional two-cycle
motors.
Which AMSOIL motor oils are recommended for two-cycle engines?
AMSOIL Synthetic 2-Cycle Injector Oil (AIO) is a superior TC - W3 formulation recommended for use as an injector oil or
50:1 pre - mix oil in all 2-cycle outboard motors including, but not limited to Mercury® EFI & Optimax®, Johnson® and
Evinrude® FICHT® and E-TEC™, Yamaha® HPDI, Nissan® and Tohatsu® TLDI®, Suzuki®, Mariner® and Force®. May
also be used for summer or winter use in 2- cycle snowmobiles, jet boats, and personal watercraft including those with
catalytic converters. Compatible with most synthetic and mineral two-cycle oils, however, mixing oils should be minimized.
TC-W3 - API TC
--------------------------------------------------------------------------------
AMSOIL INTERCEPTOR™, High Performance Synthetic 2-Cycle Oil (AIT) is specially formulated to address exhaust valve
sticking found in 2-cycle motor sports applications. It provides exceptionally clean engine performance and has demonstrated
“No Stick” exhaust power valve performance during extensive Rocky Mountain snowmobile testing. INTERCEPTOR™ is
recommended for use in all 2-cycle snowmobiles, personal watercraft, motorcycles, ATV’s & jet boats including those made
by Bombardier®, Yamaha®, Arctic Cat®, Polaris®, Kawasaki®, Suzuki®, and Honda®. May be used with carbureted,
Electronic Fuel Injected (EFI) or Direct Fuel Injected (DFI) motors. Replaces all manufacturer branded 2-cycle oils! Use in oil
injection systems or as 50:1 pre-mix. Compatible with most synthetic and mineral two-cycle oils, however, mixing oils should
be minimized. API TC - JASO FC
--------------------------------------------------------------------------------
AMSOIL Series 2000 Synthetic 2-Cycle Racing Oil (TCR) is a robust formulation specially engineered for high
performance “modified” 2-cycle motors, both on and off the track. It is recommended for use in modified 2-cycle motors
where RPM, compression ratios, heat, and horsepower have been increased from stock, including, but not limited to air or
liquid cooled snowmobiles, personal watercraft, motorcycles (moto X), ATV’s, and go-carts. May be used with exhaust
power valves, coated or non-coated pistons and high-octane “racing” fuels. Use as injection oil or as 50:1 pre-mix. Compatible
with most other 2-cycle oils, however, mixing oils should be minimized. TCR is not recommended for use with alcohol or
nitro-methane fuels. API TC - JASO FC
--------------------------------------------------------------------------------
AMSOIL Pre-Mix, 100:1, Synthetic 2-Cycle Oil (ATC) is the ultimate small engine lubricant. It is recommended for API
TC, JASO FC, and ISO-EGD applications including, but not limited to chain saws, mopeds, scooters, weed eaters, lawn
mowers, leaf blowers, chop saws, go-carts, motorcycles, snowmobiles, and pumps. Mix with gasoline at 100:1 for normal
service in air or liquid cooled applications. For “Severe Duty” applications such as racing and continuously operated industrial
or commercial work motors, richer mix ratios of 50:1 to 80:1 are recommended. Not recommended for use
in oil injection systems.
| Retail and commercial businesses can enroll for FREE, as accounts for factory direct wholesale pricing with no obligations or minimum purchases. |
| Save about 20% to 25% off our regular retail when you join the Amsoil Synthetic Lubricants Preferred Customer Discount Program |
| Become an individual Amsoil Synthetic Lubricants Dealer and start your very own business. No minimums, no stocking, no quotas, no hassles. |
 |
| |
 |
| |
 |
| |
 |
| |
 |
| |
 |
| |
 |
| Toll Free 1-877-853-9702 |
| Local 586-268-1295 |
| Proven #1 Since 1972 ! ATV Racing Boating Motorcycle Snowmobile Personal Watercraft Family Fleet |
| Proven #1 Since 1972 ! Automotive Trucking Farming Industrial Antiques Commercial Fleets Municipal Fleets |
| There is only one #1 - MSOIL Proven time and again in actual S.A.E. Testing We are the best in every single category !!! The difference is we can prove it. High performance products! You will actually notice a difference when you use them. |
