Sticking valves are a relatively common problem on aircraft piston engines.
Lycoming Service Bulletin 388 addresses the need to regularly check clearance and
provides a procedure to clean carbon accumulations to prevent problems.
Most engines will give an important warning that valve stem clearance has been lost to carbon deposits,
allowing for maintenance that can avoid the problem.
The following will explain the most of the causes and what to watch for.
Exhaust Valve Issues
Valve sticking is almost exclusively limited to the exhaust valves.
Most issues with intake valves are usually associated with improper fit or
machining during repairs or loose seats usually becoming apparent soon after the cylinder is put into service.
Exhaust valve issues seem to be more prevalent on helicopter engines
due to their high constant loading with no variance in operating conditions.
This allows prime conditions for deposits to crowd the valve that will lead to sticking.
Many contributors factors can lead to the deposits that cause stuck exhaust valves.
One very important thing operators can do is change their oil often at the regular intervals
specified in the operators manual thus removing suspended solids before they can accumulate in the guides.
Engines that use screen filters will benefit from changing to a full flow filter to remove more particulates from the oil.
Keeping cylinder temperatures in normal operating range with proper attention to air flow and
baffle sealing will help by lowering guide and valve temperatures.
Proper air filtration can also help as well by keeping ingested solids to a minimum.
Longer than recommended oil change intervals, high lead content of fuel in engines certified
for lower octane fuels and insufficient air filtration can lead to high amounts of
suspended solids that can eventually lead to stuck valves from accumulated deposits.
Deposits can accumulate within the valve guide during operation as heat evaporates engine oil
allowing the suspended solids to remain behind.
If these deposits accumulate at a rate that is slower than they can be worn away
then they usually do not become an issue.
When engine oil is heavy with deposits and high operational temperatures are encountered
these deposits can accumulate at a faster rate, slowly robbing the valve of clearance.
High cylinder temperatures, especially with unapproved or inferior engine oils
can cause oil coke to be the source of deposits as well.
While at operating temperature, clearances are higher than at room temperature,
allowing extra space for deposits to accumulate.
Once the engine cools and the clearances shrink the deposits can start to cause a problem.
At start up an early warning of trouble will be a hard miss and roughness that clears as the engine warms up,
usually in a matter of seconds rather than minutes.
This leads many operators to believe the engine is just cold natured,
has a fouled plug or getting up in time but the reality is that the engine is giving notice that a major problem is looming.
Given that a stuck valve can cause a forced landing and serious engine damage these symptoms should not be ignored.
Valve clearances should be checked as soon as possible.
Valves tend to ride one side of the guide rather than having the carbon act like an encompassing bushing.
This results in galling by metal to metal contact as deposits force the valve against the opposite side of the guide.
This galling is what eventually causes the hard sticking that can occur in flight long after start up.
Another common cause of valve sticking is the corrosion that can occur in high humidity areas
as the engine sits unused for long periods of time.
Corrosion can occur between the valve stem and guide binding the valve in place.
Turning the propeller through can expose the problem but cylinder service will be the only way to properly fix it.
Nitralloy guides are particularly predisposed to this problem since they are magnetic and
will readily rust in a high moisture environment.
Engines that still use these guides should not be allowed to sit for long periods without use,
especially without some type of climate control such as a closed hangar.
Stuck valves will not go away by themselves.
Continued operation of the engine will only increase the risk of damage.
Damage could rear its ugly head in the form of bent pushrods,
damaged camshaft lobes, damaged camshaft followers or damaged rocker arm supports.
I hope this article reveals some of the influences of why a valve sticks and what happens as a result of it.
When it becomes necessary to remove the cylinders and send them to a repair facility,
is fully capable of servicing all of your cylinder needs.
We are only a phone call way.