Shaft Seal Failure Analysis Guide

Like any good detective, the time to start gathering clues is before anyone has disturbed the evidence. Just by looking at the environment -- judging the amount of dirt, grit or frequent wash-downs -- you can tell a lot about the possible causes of early seal failure. Then a step-by-step analysis will uncover other common causes. Sometimes the clues will be subtle, other times they'll be obvious. Armed with this guide, you should be able to unravel them all.

Cocked seal failureOne of the most common causes of early seal failure is a bad

installation. Without the proper tool (or at least a soft tool spanning the seal diameter) the seal may

become cocked in the bore. You may be able to see this before

you even attempt to remove the seal.

Foreign matter on the seal caseIf the machinery has been painted without protecting the seal, the lip may be damaged. Also, oven drying the paint, or some

paint solvents, can destroy the seal.

Either remove the seal or mask the area well before painting.

Dents and DingsAn early leak is often the result of installing the seal without the proper tool. The evidence shows up as telltale marks on

the seal shell. When an installation toolisn't available, a soft material, like wood, will work as long as

it spans the seal.

No Chamfer on the boreThe beveled edge (chamfer) on the leading edge of the bore provides a ramp for starting the seal straight. Without it, it is

virtually impossible to get the sealinstalled correctly. A 15-30° angle, clean and burr free, is

recommended.

Burr DamageA deep scratch in the outer diameter that scribes a line across the seal width is usually the sign of a burr (or contamination)

in the bore. This line creates a leakpath. Short, light scratch marks are usually the result of

normal installation.

No Chamfer on the ShaftThe beveled edge ( or chamfer) at the end of the shaft provides a ramp for the seal to ride up on. Without it, the seal lip cannot

be installed without beingdamaged or torn, as shown here. The lead-in chamfer must be

smooth and burr free.

Torn Lip Another way for the sealing lip to be damaged is by

attempting to install it over unprotected threads, splines or keyways. Adhesive tape, or Mylar tape,

wrapped carefully around the shaft will usually provide

enough protection to mount the seal successfully.

Heat DamageWhen operating speeds increase, seal lip temperatures may

soar. One indication of high heat is a dry, brittle lip. Flexing the lip may reveal fine axial cracks

around the entire circumference. Another indicator is a thin band of carbonized oil along the seal lip that results when heat

causes the lubricant to break-down.

Shaft To Bore Misalignment Misaligned components in a power train create Shaft To Bore Misalignment (STBM) and leaks. The cause may be machine

inaccuracies or worn bearings,among other things. The seal lip will appear worn on one side and relatively untouched on the other. Shaft alignment should

always be checked before installinga new seal.

Dynamic Run Out Dynamic Run Out is the result of a bent or unbalanced shaft. In such a condition the shaft does not rotate around its true center.

The sealing lip will be severelyworn around the entire diameter. A dial indicator attached to the

bore or housing while the shaft is rotated through 360° will

reveal DRO.

Foreign MatterNothing but lubricant should come in contact with the sealing

lip. In this instance, too much bore sealant was applied and was forced into the seal housing. As

the sealant dries it hardens on the lip and causes the seal to fail.

Manufacturing DefectsAlways inspect a new seal before installing it. While process

controls have nearly eliminated manufacturing errors, not every seal maker uses them. Here, the

seal lips were destroyed during the molding process.

Pressure WearA heavily worn or scuffed path on the air side of the seal lip may indicate pressure build-up in the sump. Generally, shaft

seals are designed to handle only light pressure. Each application should be properly vented to allow heated air to

escape. In this example the sealing material has been worn so thin that the spring is showing through.

Dirt and GritTraces of metal particles or sand on the inner seal surfaces

point to some type of internal contamination. An improperly cleaned casting will eventually

contaminate the seals, as will failing gears or bearings. These

residues collect in the spring area.

Chemical SwellingSome chemicals, including some lubricant additives, cause sealing materials to swell and soften. Dirt and grit particles

can become embedded and the lip wearsrapidly. Changing from mineral to synthetic lubes can cause

this problem.

DebondingLip materials are bonded, or held in place, in a variety of ways.

Chemicals that are incompatible with the lip material or bonding agent can cause the seal to

literally come apart.

Deformation -- before and after --

Incompatibility between the lip material and the operating media, including lubricants, can produce major swelling of the

seal material. Above is a before andafter example of the gross damage you may see from chemical

incompatibility.

Damaged SpringThe garter spring should be inspected for kinks or other damage. Springs can be damaged during installation or by rough handling.

A damaged spring will

produce an out-of-round condition and create a leak at the seal lip.

No SpringPeople have been known to remove the garter spring in order

to make installation easier. That it does. But it also reduces the effectiveness and life of the seal.

The spring can also be lost through rough handling before or

during installation.

Wrong Part NumberThis mistake is easy to overlook. The seal should be checked against specifications for both size and type. Also the size of

the bore and the shaft should bemeasured accurately with a micrometer. And it should be noted whether the hardware measurements are in inch or metric sizes.

The tolerances are different foreach.

Backwards installationMake sure that the seal lip is facing in the correct direction.

Mark the outer case before removing the seal, and then check the direction of the lip. Shown above

is a seal facing the wrong way to retain lubricant. It may be installed backwards intentionally where excluding

contamination is most important.

When installing a shaft seal, the lip should be facing the medium to be contained. In this illustration the seal lip is "facing" backwards so that the lip is facing away from the grease lubricant. This is done when holdingout contamination is the most important job. Where there's room, two seals can be installed facing in opposite directions. One facing in to contain lubricant and the other facing out to increase protection against contamination. There are special back-to-back seals for this function that are described later on.

Shaft Preparation

A burr-free chamfer or radius is required as illustrated here. (C = chamfer depth). The chamfer acts as a ramp for the sealing lip to ride up on. Without it, it is virtually impossible to install the seal without damaging the lip. Some manufacturers, in reducing production costs, have begun to produce shafts without a chamfer. They then use a special funnel-shaped tool to install the seal without damage. When replacing a seal on this type of shaft, you should first grind a smooth 15° to 30°chamfer.

Bore Preparation

The lead corner, or entering edge, of the bore should be chamfered (as shown below) and free of burrs. The inside corner of the bore should have a maximum radius of .031" (0.79 mm).

Machine Lead The surface of a shaft, especially a reconditioned one, may

contain a nearly (or actually) invisible screw-like pattern that augers lubricant under the seal lip.

The End for now

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