Head gasket

Head gasket (in dark gray with a red border) sitting on top of an inline-four engine block. When installed, the four large holes will align with the cylinders.

In an internal combustion engine, a head gasket provides the seal between the engine block and cylinder head(s).

Its purpose is to seal the combustion gases within the cylinders and to avoid coolant or engine oil leaking into the cylinders.[1] Leaks in the head gasket can cause poor engine running and/or overheating.

Purpose

Within a water-cooled internal combustion engine, there are three fluids which travel between the engine block and the cylinder head:

  1. Combustion gases (unburned air/fuel mixture and exhaust gases) in each cylinder
  2. Water-based coolant in the coolant passages
  3. Lubricating oil in the oil galleries

Correct operation of the engine requires that each of these circuits do not leak or lose pressure at the junction of the engine block and the cylinder head. The head gasket is the seal that prevents these leaks and pressure losses.

Types

  • Multi-layer steel (MLS): Most modern engines are produced with MLS gaskets. These consist of two to five (typically three) thin layers of steel, interleaved with elastomer. The contact faces are usually coated with a rubber-like coating such as Viton which adheres to the engine block and cylinder head while the inner layers are optimized for resilience.[2][3]
  • Solid copper: A solid sheet of copper, and typically requires special machining called O-ringing that places a piece of wire around the circumference of the cylinder to bite into the copper. When this is performed copper gaskets are very durable.
  • Composite: An older design which is more prone to blowouts than newer designs. Composite gaskets are traditionally made from asbestos or graphite. Asbestos gaskets are increasingly rare due to health concerns.[4]
  • Elastomeric: Uses a steel core plate with molded in place silicone rubber beads to seal oil and coolant passages. The bores are sealed by rolled steel fire rings in a more conventional manner. This type of gasket was used in the Rover K-series engine.
  • O-ring: These gaskets are typically built from steel or copper. They are reusable and if used between correctly prepared flat surfaces will yield the highest clamping pressure, due to their much lower surface area compared with other gasket types.

Gasket failure

Head gasket with a leak between the rightmost and centre cylinders.

A leak in the head gasket - often called a "blown head gasket" - can result in a leak of coolant, the combustion gasses, or both.

Blue smoke from the exhaust suggests that excess oil is entering the combustion chambers (although there are other possible causes than a head gasket leak). White smoke from the exhaust suggests that coolant is entering the combustion chamber.

Head gasket leaks are classified as either external or internal. External leaks are visible as oil or coolant on the outside of the engine (typically underneath). Internal leaks are when the fluids enter another circuit and may result in changes to the coolant or oil. The former may be the presence of foam (caused by hydrocarbons) in the coolant expansion tank. Coolant leaking into the oil system may result in a mayonnaise- or milkshake-like substance in the oil, often to be seen on the dipstick, or oil filler cap. However, the presence of this substance is not conclusive proof of head gasket failure, since oil could mix with the coolant via other routes. Likewise, it is entirely possible for a head gasket to fail in such a way that oil never comes in contact with coolant. Therefore it is not possible to conclusively determine the head gasket condition by inspecting the oil.

Coolant leakage

If coolant enters a cylinder, the burning of the air/fuel mixture is compromised, reducing the engine's performance and often causing steam (white smoke) to be visible from the exhaust.[4] This steam can damage the catalytic converter. If a very large amount of coolant leaks into the cylinders, then the engine can suffer from hydrolock, which can cause extensive engine damage.

Combustion gas leakage

When the combustion gasses leak out of a cylinder, this causes a loss of compression, leading to power reduction or rough running. If the combustion gases are leaking into the cooling system, this reduces the effectiveness of the cooling system and can cause the engine to overheat. In other occurrences the gases can leak into small spaces between the gasket and either the cylinder head or engine block traps those gases, and then released when the engine is turned off. These gases then escape into the coolant and create air pockets. Sometimes these air pockets can get trapped in the engine's coolant thermostat, causing it to stay closed and cause further overheating, thereby creating more voids between the gasket and the engine. Other times these air pockets can also cause the engine to expel coolant into the overflow or expansion tank, thereby reducing the amount of coolant available for cooling.

Diagnosis and repair

Common test methods for head gasket leaks are a compression test (using a pressure gauge), a leak-down test or a chemical test that identifies hydrocarbons in the coolant fluid.[5]

The cost of the replacement component (i.e. the head gasket itself) is usually relatively low, however there are significant labor costs involved in the replacement process.[6] This is because the process of removing and replacing the cylinder head is a time-consuming task.

Effect of engine knocking

Engine knocking (detonation) can be caused by poor quality fuel, an engine fault or if inappropriate fuel and/or ignition settings are trialled/chosen while engine tuning is taking place. If the detonation is severe, the cylinder pressure can increase to eight times above normal pressures,[citation needed] which can cause the cylinder head to lift away from the engine block, disrupting the seal between the two. Most gaskets used in standard production engines can be critically damaged by severe detonation.

See also

References

  1. ^ Bickford, John H. (1997). Gaskets and Gasketed Joints. CRC Press. p. 57. ISBN 0-8247-9877-5.
  2. ^ "Best Head Gaskets – Choosing the Right Gasket for you car". Auto Accessories Performance. 15 March 2017. Retrieved 2017-05-23.
  3. ^ "Multi-layer Steel (MLS) Cylinder-Head Gaskets". Victor Reinz. Retrieved 2017-05-23.
  4. ^ a b Nunney, M. J. (1998). Light & Heavy Vehicle Technology. Elsevier. p. 23. ISBN 0-7506-3827-3. Since exposure to asbestos is now recognized as being a health hazard [...] the manufacture of non-asbestos cylinder head gaskets has now become established.
  5. ^ "How to Repair or Replace a Head Gasket". www.do-it-up.com. Retrieved 24 October 2020.
  6. ^ "Head Gasket Sealers". www.headgasketsealer.com. Retrieved 24 October 2020.

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