| Normal |
 |
| Combustion
deposits are slight and not heavy enough to cause any
detrimental effect on engine performance. Note the brown to
greyish tan color, and minimal amount of electrode erosion which
clearly indicates the plug is in the correct heat range and has
been operating in a "healthy" engine. |
|
| Mechanical Damage |
 |
| May
be caused by a foreign object that has accidentally entered the
combustion chamber. When this condition is discovered, check the
other cylinders to prevent a recurrence, since it is possible
for a small object to "travel" from one cylinder to
another where a large degree of valve overlap exists. This
condition may also be due to improper reach spark plugs that
permit the piston to touch or collide with the firing end. |
|
| Oil Fouled |
 |
| Too
much oil is entering the combustion chamber. This is often
caused by piston rings or cylinder walls that are badly worn.
Oil may also be pulled into the chamber because of excessive
clearance in the valve stem guides. If the PCV valve is plugged
or inoperative it can cause a build-up of crankcase pressure
which can force oil and oil vapors past the rings and valve
guides into the combustion chamber. |
|
| Overheated |
 |
| A
clean, white insulator firing tip and/or excessive electrode
erosion indicates this spark plug condition. k This is often
caused by over advanced ignition, timing, poor engine cooling
system efficiency (scale, stoppages, low level), a very lean
air/fuel mixture, or a leaking intake manifold. When these
conditions prevail, even a plug of the correct heat range will
overheat. |
|
| Insulator Glazing |
 |
| Glazing
appears as a yellowish, varnish-like color. This condition
indicates that spark plug temperatures have risen suddenly
during a hard, fast acceleration period. As a result, normal
combustion deposits do not have an opportunity to
"fluff-off" as they normally do. Instead, they melt to
form a conductive coating and misfire will occur. |
|
| Pre-Ignition |
 |
| Usually
one or a combination of several engine operating conditions are
the prime causes of pre-ignition. It may originate from glowing
combustion chamber deposits, hot spots in the combustion chamber
due to poor control of engine heat, cross-firing (electrical
induction between spark plug wires), or the plug heat range is
too high for the engine or its operating conditions. |
|
| Gap Bridging |
 |
| Rarely
occurs in automotive engines, however, this condition is caused
by similar conditions that produce splash fouling. Combustion
deposits thrown loose may lodge between the electrodes, causing
a dead short and misfire. Fluffy materials that accumulate on
the side electrode may melt to bridge the gap when the engine is
suddenly put under a heavy load. |
|
| Splash Fouled |
 |
| Appears
as "spotted" deposits on the firing tip of the
insulator and often occurs after a long delayed tune-up.
By-products of combustion may loosen suddenly when normal
combustion temperatures are restored. During hard acceleration
these materials shed from the piston crown or valve heads, and
are thrown against the hot insulator surface. |
|
| Detonation |
 |
| This
form of abnormal combustion has fractured the insulator core
nose of the plug. The explosion that occurs in this situation
apples extreme pressures on internal engine components. Prime
causes include ignition time advanced too far, lean air/fuel
mixtures, and insufficient octane rating of the gasoline. |
|
| Ash Fouled |
 |
| A
build-up of combustion deposits stemming primarily from the
burning of oil and/or fuel additives during normal combustion
... normally non-conductive. When heavier deposits are allowed
to accumulate over a longer mileage period, they can
"mask" the spark, resulting in a plug misfire
condition. |
|
| Carbon Fouled |
 |
Soft,
black, sooty deposits easily identify this plug condition. This
is most often caused by an over-rich, air/fuel mixture.
Check for a sticking choke, clogged air cleaner, or a carburetor
problem - float level high, defective needle or seat, etc.
This may also be attributed to weak ignition voltage, an
inoperative preheating system (carburetor intake air), or
extremely low cylinder compression. |
|
| Worn |
 |
| This
plug has served its useful life and should be replaced. The
voltage required to fire the plug has approximately doubled and
will continue to increase with additional miles of travel. Even
higher voltage requirements, as much as 100% above normal, may
occur when the engine is quickly accelerated. Poor engine
performance and a loss in fuel economy are traits of a worn
spark |
|