DISTORTION
Warpage or distortion of cylinder heads becomes
apparent when the mating surfaces of the head and block
fail to match properly. If distortion is severe, the head
will not lit over the studs. Distortion may be caused by
improper welding of cracks or by improper tightening
of the cylinder head studs. Occasionally, new heads may
be warped because of improper casting or machining
processes.
Repair of distorted or damaged cylinder heads is
often impracticable. They should be replaced as soon as
possible and turned in to the nearest supply activity,
which will determine the extent of damage and the
method of repair.
FOULING
If the combustion chambers become fouled, the
efficiency of combustion will decrease. Combustion
chambers are designed to create the desired turbulence
for mixing the fuel and air; any accumulation of carbon
deposits in the space will impair both turbulence and
combustion by altering the shape and decreasing the
volume of the combustion chamber.
Symptoms of fouling in the combustion chambers
are smoky exhaust, loss of power, or high compression.
Such symptoms may indicate the existence of extensive
carbon formation or clogged passages. In some engines,
these symptoms indicate that the shutoff valves for the
auxiliary combustion chambers are stuck
Combustion chambers may also become fouled
because of faulty injection equipment, improper
assembly procedures, or excessive oil pumping.
Cleaning of fouled combustion spaces generally
involves removing the carbon accumulation. The best
method is to soak the dirty parts in an approved solvent
and then wipe off all traces of carbon. You may use a
scraper to remove carbon, but be careful to avoid
damaging the surfaces. If oil pumping is the cause of
carbon formation, check the wear of the rings, bearings,
pistons, and liners. Replace or recondition excessively
worn parts. Carbon formation resulting from improperly
assembled parts can be avoided by following procedures
described in the manufacturer’s technical manual.
INSPECTING, TESTING, AND REPAIRING
VALVES AND VALVE ASSEMBLIES
Regardless of differences existing in engine
construction, there are certain troubles common to all
assemblies.
STICKING VALVES
Sticking valves will produce unusual noise at the
cam followers, pushrods, and rocker arms and may
cause the engine to misfire. Sticking is usually caused
by resinous deposits left by improper lube oil or fuel.
To free sticking valves without having to
disassemble the engine, use one of several approved
commercial solvents. If the engine is disassembled, use
either a commercial solvent or a mixture of half lube oil
and half kerosene to remove the resins. Do NOT use the
kerosene mixture on an assembled engine, since a small
amount of this mixture settling in a cylinder could cause
a serious explosion.
BENT VALVES
Bent or slightly warped valves tend to hang open. A
valve that hangs open not only prevents the cylinder
from firing, but also is likely to be struck by the piston
and bent so that it cannot seat properly. Symptoms of
warped or slightly bent valves will usually show up as
damage to the surface of the valve head. To lessen the
possibility that cylinder head valves will be bent or
damaged during overhaul, NEVER place a cylinder
head directly on a steel deck or grating; use a protective
material such as wood or cardboard. Also, NEVER pry
a valve open with a screwdriver or similar tool.
WEAK SPRINGS
Valves may close slowly, or fail to close completely,
because of weak springs. At high speeds, valves may
“float,” thus reducing engine efficiency. Valve springs
wear quickly when exposed to excessive temperatures
and to corrosion from moisture combining with sulfur
present in the fuel.
BURNED VALVES
Burned valves are indicated by irregular exhaust gas
temperatures and sometimes by excessive noise. In
general, the principal causes of burned valves are carbon
deposits, insufficient tappet clearance, defective valve
seats, and valve heads that have been excessively
reground.
3-8
