Male Stripper Rings

Grinding Stripper Rings

Grinding rubber rings seems very simple because rubber is a lot softer than knives. But it is devilishly difficult.

• You need a special grinding wheel dedicated for grinding rubber rings
• Rubber is abrasive, so imagine grinding one grinding wheel with another
• Heat is a problem because rubber is an insulator and the heat doesn’t get wicked away like with metal.
• Heat is a problem because heat causes the diameter to increase
• It’s difficult to keep rubber rings from spinning (they aren’t keyed)
• The dang things move out of the way when the grinding wheel presses against them.

If you are the person grinding rubber rings, call us and we can talk you through the solutions.

Diameter relationship of knives and rubbers

The diameter relationship between the OD of the knives and the rubber is by far the most important aspect for success. This is the primary way that you have to adjust the amount of push force ejecting the strip from between the knives.
This can get pretty detailed. You are welcome to call us to discuss it. Or read on.

Let’s discuss the male rubber rings first. Male rings need to be slightly larger than the diameter of the knives, because they just need to keep the non-cutting edge of the knife from contacting the strip and making knife marks. If you are getting knife marks, you need to adjust the diameter relationship and allow the male rings to be larger in diameter.

More importantly, the female rings need to be sized correctly to give enough just enough ejection force to keep the strip from sticking, but not a lot more. The diameter relationship of knives to rubbers is your key to control it.

To understand this, you need to think about the fact that rubber is a spring.  Its easier to imagine if we think about metal springs. A metal coiled spring will push back with different amounts of force depending on how much it is compressed. If you need a little force, you compress the spring just a little. More compression gives more force. It’s the same way with a rubber rings, except that the dimension being compressed is the distance between the OD and the ID. If we have a bigger diameter on the rubber, we will compress it a longer distance, and the force will be greater.

Of course, you never want the strip to stick down between the knives, but there is a problem having the diameters larger than necessary. First, you will have more forces on your arbors. It is easy to underestimate the force required to compress all that rubber across the width of your arbors. Those forces contribute to arbor deflection, and changing horizontal clearances that you were so careful to set up. Your bearings are going to be subjected to increases pressures too.

Secondly, you are going to be overcompressing the rubbers, causing them to stretch out. Overcompressing rubber rings is the primary reason that unbonded rubber rings become loose.

We have strong opinions about the proper relationship of knives and rubbers. Contact us for more details.

Keeping rings snug

Hopefully, you read the above section. First, let’s bust some myths.

MYTH  Oil causes rubber to stretch.
BUSTED!  Unless you are using rings made from an inappropriate formula, rubber doesn’t stretch due to oil. Nordic rings are specifically formulated to resist attack by oils.

MYTH  Rings get loose because the ID of the rings wears out.
BUSTED!  No, the ID surface is not abrading away and becoming larger because material is being removed.

MYTH  I need a harder rubber to resist stretching.
BUSTED!  Nope, that is really wrong thinking.
Let’s talk first about the mechanism causing rings to stretch on the ID.  When rubber gets compressed, it doesn’t return to its original size. It gets very close, but not quite. That happens on the next compression cycle, and the next. Think about how many compression cycles (revolutions) your rings turn in a production shift. For very small compressions, you might get millions or hundreds of million cycles before you had a noticeable change. But, large compressions cause noticeable changes with fewer cycles. With a large enough compression, you might notice it after 1 cycle.

When rubber rings fail to return to their original size, they get longer in the circumference, which means larger in the diameter, which means that they will fit less snugly, or may become loose on the ID.

You can’t control the number of cycles (hey, you got to get thru that warehouse of coils, right?), but you can control the amount of compression by managing the diameter relationship of the knives and rubbers. Don’t over-compress the rubbers.

Shouldn’t dual durometer rings stop that from happening?  Nope. (read the Common Question section.)

(We do manufacture a proprietary fiber reinforced ring which does help rings keep their snugness longer. Contact us directly for details)

Bonded rubber rings

Nordic can bond rubber to new or existing spacers in our facility. We’ve had great success with our technique and with the performance of our rings.

Rubber rings permanently bonded to steel spacers is a great way to improve a number of nagging problems.  They will never get loose and go around like a hula hoop.  Your regrinder will be able to hold better diameter accuracy and circularity because he won’t have your rings going around like a hula hoop either. Your personnel will be handing 1 piece rather than 2 (spacer and ring).

On the other hand, you’ve got to send spacers and the rubbers bonded out for grinding, so might need more tooling.  And, when it comes time for new knives, you’ll have to send the spacers to Nordic to have the old rubber removed and new rubber applied.  Either that has to be done during shut down maintenance, or you’ll need more tooling to cover things while they are in our shop.

We can help you to plan a conversion or to recover your existing spacers.