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Seal the Deal
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Gaskets come in all shapes , sizes
and materials , but they all have a common mission:
To keep gases and liquids where they're supposed to
be.
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Gaskets play a very important role
in automotive engines. By definition, a gasket is a
mechanical barrier between two surfaces that
creates a seal between those two surfaces. This
seal prevents the flow of gases or liquids,
depending on the application, between these
surfaces.
Gasket Basics
Gaskets are necessary because
it is virtually impossible to machine the two
surfaces to a flatness and smoothness that will
provide such a seal (there are few exceptions to
this rule). Gaskets conform to most irregularities
in the surfaces to create an adequate seal.
Most gaskets are pre-formed and are made from a
variety of materials. These materials include
steel, cork and neoprene. Some gaskets are not
pre-formed, but are formed when the gasket material
is applied to the surfaces that must be sealed.
These are known as form-in-place gaskets. Other
materials, known as sealers, are used in
conjunction with a pre-formed gasket to make the
required seal.
The material used for a specific gasket is based on
the application. For example, a cylinder head
gasket that prevents compressed air/fuel mixture
from escaping from the combustion chamber requires
a gasket material that can withstand the heat of
combustion. On the other hand, the water pump
gasket that prevents coolant leaks around the
perimeter of the pump housing doesn't need a
hightemperature material, but one that can form a
liquid-tight seal.
Gaskets can be either static (stationary) or
dynamic. A static gasket is one that does not move.
When you think of a gasket, this is the type that
usually comes to mind. Examples include the oil pan
gasket and the cylinder head gasket.
Dynamic gaskets seal moving components. The most
common examples are the valve stem seal (this seal
is mounted on top of the valve guide and on the
valve stem; the valve stem moves during engine
operation, but the seal remains in place) and the
crankshaft seal (this gasket is installed in the
engine block. As the crankshaft rotates, the seal
stays in place to prevent the flow of oil out of
the crankcase). Here, we will limit our discussion
to static gaskets.
When you think of a gasket, you usually picture one
that is pre-formed and stamped from a particular
type of material. One common type of gasket is the
intake manifold gasket (see Figure 1). This gasket
is the sealing device between the intake manifold
and cylinder head in a typical V-type engine (in
this case, the 8.0L V10 truck engine). Other types
of common pre-formed gaskets include those used on
cylinder heads, timing chain covers and exhaust
manifolds.
Form-in-Place Gaskets and
Sealers
There are numerous locations
on the engine where form-in-place gaskets are
used.
Special care must be taken when applying this type
of gasket to ensure the desired seal. Do not use
form-in-place gaskets unless specified. Check the
appropriate service manual for the type of gasket
and/or sealer required for a specific
application.
When applying this type of gasket, bead size,
continuity and location are of great importance. If
the bead is too thin, fluid leakage can result. On
the other hand, if the bead is too thick,
spill-over can result, leading to some of the
material breaking off and obstructing fluid feed
lines. A continuous bead of the proper width is
essential to obtain a leak-free gasket.
There are several types of form-in-place gasket
materials. These include Mopar Engine RTV GEN II,
Mopar ATF-RTV and Mopar Gasket Maker. Each of these
materials has its own distinct properties and
cannot be used in place of the other.
For example, Mopar Engine RTV GEN II is used to
seal components that are exposed to engine oil. One
of its applications is the oil pan. On the other
hand, Mopar ATF-RTV is a specifically designed
black silicone rubber RTV that retains its adhesion
and sealing properties when exposed to automatic
transmission fluid, engine coolants and moisture.
Finally, Mopar Gasket Maker is an anaerobic type
gasket material. It cures in the absence of air
when squeezed between two machined surfaces. Do not
use it on flexible metal flanges.
Mopar Gasket Sealant is a slow drying, permanently
soft sealer. This material is recommended for
sealing threaded fittings and gaskets against
leakage of oil and coolant. It can be used on all
threaded and machined parts under all
temperatures.
Engine Gasket Surface
Preparation
Gaskets cannot be re-used;
therefore, when two sealed surfaces are separated,
the gasket used between those two surfaces must be
removed and discarded. In order for the new gasket
to seal properly between these surfaces, the
surfaces must be smooth, flat, dry, clean and free
of all traces of the previous gasket.
To ensure proper engine gasket sealing, proper
surface preparation is a must, especially for
aluminum engine components and cylinder heads that
use multi-layer steel (MLS) head gaskets. Here are
some important tips:
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Never use a metal scraper, an
abrasive pad or paper to clean the cylinder
block and head, or a high speed power tool with
an abrasive pad or a wire brush. If aggressive
cleaning is required, use a white plastic 3M"
Roloc" bristle disc (see Figure 2).
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Multi-layer steel (MLS) head
gaskets require a scratch free sealing surface.
To clean such a surface use solvent or a
commercially available gasket remover. A
plastic or wood scraper can also be
used.
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Sealing surfaces must be free
of grease and oil residue. Clean all mating
surfaces with Mopar Brake Parts Cleaner, or
equivalent.
Finally, all cylinder heads should be checked for
flatness. This is done using a straight edge and
feeler gauge (see Figure 3). As a general rule, the
cylinder head must be flat within 0.004" (0.1 mm).
Check the appropriate service manual for the
specifications for the engine you are
servicing.
Installing Gaskets
After the two surfaces that
are being sealed have been cleaned, the gasket can
be installed. One of the most important aspects of
gasket installation is the orientation of the
gasket. Check the gasket being installed for
markings that would indicate top or bottom and
front or rear.
Also, be aware of the construction of the gasket.
For example, the 3.5L V6 engine has perfectly round
combustion sealing rings, where as the 3.2L V6 does
not.
Some applications will require the use of sealers
with the gasket to form the required seal. For
example, on the 3.3L/3.8L V6 oil pan, you have to
apply a 1/8-inch bead of Mopar Engine RTV GEN II at
the parting line of the chain case cover and the
rear seal retainer. Also, the timing chain cover on
2.7L V6 requires the use of Mopar Engine RTV GEN II
at the parting lines between the oil pan and the
cylinder block. The use of sealers at parting lines
of many components is common.
Finally, there will be some applications that will
require Mopar Gasket Maker. One of these is the oil
pump housing on the 2.4L four-cylinder engine. As
shown in Figure 4, the gasket maker compound is
applied to the sealing surface as shown.
Gaskets are used throughout the engine and gaskets
come in all shapes, sizes and materials. If you
have any questions regarding the gasket for a
particular application, check the appropriate
service manual for the vehicle being serviced or
consult your Mopar dealer.
Courtesy of Mopar Magazine
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