Vibration theory provides an essential foundation for vibration isolators. At RPM, our engineers understand and create products based on tested ideas like this. Whether you are a casual customer, lead an OEM, or simply want to understand more, this treatment can enhance your knowledge.
Boiled down, vibration theory is simply this:
The basis of every vibration system has three main components. These are:
This could be a cab or a computer system. In this illustration, we’ll use the example of an engine system as the mass component.
Consider a steel spring. If you compress it, it deflects some amount based on the applied force. There are two common types of springs which behave differently:
Designed systems are most predictable with steel springs and linear force relationships.
Damping is the property of the system to absorb energy. Consider a shock absorber on a car. If you hit a pothole, the car won’t bounce as much because the damper absorbs the energy. With elastomers in a vibration mount, damping is part of the elastomer. For every deflected amount, some are absorbed as a form of heat. The goal of that damping is to reduce the output for an isolator.
As damping increases, the output to the system decreases. When sizing mounts for a system, there is a necessary calculation that ensures this dynamic occurs.
Beyond these three primary aspects are some additional points of consideration.
When force is applied to a spring, it will oscillate up and down. This is pretty consistent. The rate at which it oscillates is the natural frequency. Natural frequency can be expressed by the following equations (metric formula and in English units). The natural frequency determines what vibration mounts should be selected for optimal transmissibility.
Transmissibility is a ratio of output over input. In any vibration isolation system, the goal is for the output to be as low as possible. That represents the most significant amount of isolation. On a chart, the peak may remain at the same magnitude. The goal is to be on the tail end of the curve, where we will attain the highest isolation level.
The three categories above are considered when designing vibration isolator mounts. For many mounts, spring and damper are contained in the same mount. There are two types of systems that require analysis.
As with many things, the answer isn’t as simple as it may seem. Mount selection is a complex matter with a lot of variables. That’s part of why the RPM team provides consulting to provide the right recommendation for individual needs.
At the heart of the matter is a balance between motion control and vibration isolation.
RPM is an elite manufacturer of the best vibration isolators. 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.