Rubber parts blog

Selecting an Isolator: Degrees of Freedom and Primary Engine Disturbances

There are numerous critical elements to consider when you select a vibration isolator. Depending on...

There are numerous critical elements to consider when you select a vibration isolator. Depending on the application, you’ll need to know things like the weight of equipment, the center of gravity, the size of equipment, type of disturbances, and more. Vibration of shock isolators work in very specific ways to protect and prolong the life of the equipment. For illustrative purposes, let’s consider the process of assessing and selecting an isolator for an engine.

Many engines will have front engine mounts and rear engine mounts. These may require single or dual vibration isolators, depending on the application.. There are three common solutions to isolate vibration in engines. At RPM, our clients typically use one of the following as they offer the ease of installation:

  1. One-Piece CB
  2. Two-Piece CB
  3. Conical Mounts

Tap here to see our vibration control products. In addition to stock parts, RPM also offers custom rubber mounts and custom rubber vibration isolators. These are expertly designed and created to meet a unique need. Contact us to learn more.

How to Pick a Vibration Isolator for an Engine

Several diagnostic or assessment questions should be asked. These include things like:

  • Is this engine in a stationary application? (Think:  In plant, or enclosed space)
  • Is it an on-highway vehicle?
  • Is it an off-highway vehicle?

These and other important questions will be used to create a profile of the application. This will ensure that you get the right vibration-isolating part.

Being able to use simple questions to determine the right application is the result of deep knowledge of physics and mechanics in play. One of the key areas of knowledge that our RPM engineers are intimately familiar with is the degrees of freedom. 

Six Degrees of Freedom

There are six ways that vibration or oscillation occurs. These are known as the six degrees of freedom. These motion paths determine the disturbances being fired and projected reactions. They are best understood in two distinct categories.

CATEGORY ONE: Translations Along the X, Y, and Z Axes

Within this category are three types of motion:

  1. Lateral: translation or side-to-side movement along the Y-axis. This influences how the mount will deflect.
  2. Fore/Aft: this is a fore and aft (or forward and back) movement along the X-axis.
  3. Vertical: this is the up and down motion or vertical path along the Z-axis.

These are translation modes.

CATEGORY TWO: Rotations Along the X, Y, and Z Axes

Within this category are three more types of motion which illustrate the rotation along each axis:

  1. Roll: rotation along the X-axis.
  2. Pitch: rotation along the Y-axis (forward and back).
  3. Yaw: rotation along the Z-axis or vertical axis.

Knowing exactly how a machine or engine is moving is the only way to apply the right solution.

3 Solutions for Engine Isolation

In engine isolation, there are a few typical scenarios where we apply solutions. They serve as helpful illustrations of the concepts outlined above.

3-Cylinder Engine

These are challenging to isolate. They are complex because they have low frequency and multiple directions of excitations. The issues addressed are:

  • 1st order: yaw and pitch inertia
  • 2nd order pitch: inertia
  • 1.5 order roll: gas pressure

It’s essential that the motion path and isolation mode are taken care of for each of these three dynamics.

4-Cylinder Engine

These are slightly more balanced. There are numerous rotation issues to consider. An engineer will look at the following:

  • Inertia forces are balanced
  • Third-order roll from gas pressure

6-Cylinder Inline Engine

These are even more balanced but still require attention to ensure isolation on account of:

  • Inertia forces that require balancing
  • Third-order roll from gas pressure

Other Engine Package Disturbances

While the above are some of the more common, there are many other engine packages that require careful assessment for vibration isolation mounts. Some additional examples are:

  • 60 V-6: 1st order yaw, 2nd order yaw, 3rd order roll
  • Inline 8: 4th order roll
  • 90 V-8: 4th order roll
  • V-12: 6th order roll
  • V-16: 8th order roll

It should be clear that vibration isolation requires some careful calculation and in-depth knowledge. Selecting the right isolator should take into account degrees of freedom. The right expert assessment will ensure that you purchase the right vibration isolator.

RPM Vibration Isolation

RPM is a customer manufacturer of the best vibration isolation parts and technology.  We work closely with the global leaders in rubber to metal bonding.   This blog is part of a recent webinar, co-hosted by leaders within RPM and from Parker Lord, one of RPM’s primary partners. RPM sells Parker Lord vibration isolators and other manufactured parts. If you are in the market for a manufactured rubber solution or need a consultation about the right vibration isolator for your application, contact us.

If you need rubber, we’ll have it. If we don’t have it, we’ll find it. If we can’t find it, we’ll make it.