Why Professionals Use Engineered Thermoplastics For Vibration Dampening

Posted by Michael Luis on March 22nd, 2023

Don't let vibrations slow down your projects! Learn why professionals prefer engineered thermoplastics for vibration dampening and get an overview of the process.

Vibrations can be an obstacle to specific projects where accuracy is key. Engineers are turning to engineered thermoplastics for vibration dampening to address this challenge. This article will provide an overview of how engineered thermoplastics reduce vibrations and help make quick work of accurate projects.

Engineered thermoplastics: What are they?

Engineered thermoplastics are advanced composite materials used in various manufacturing and engineering applications. Typically a blend of plastics and other reinforcement like glass, carbon, or steel fibers, these composites are produced to meet specific requirements for mechanical properties, durability, chemical resistance, and other areas.

In vibration dampening, this combination of plastic and reinforcement creates an impact-absorbing material perfect for projects requiring precision and accuracy.

Advantages of engineered thermoplastics for vibration dampening

The vibration-dampening properties of engineered thermoplastics include a precise and accurate fit, high mechanical strength, excellent flexibility to absorb shocks and vibrations, high impact resistance for extreme environments, UV resistance for outdoor use, customizability for any size or shape part, low water absorption and low odor.

By using engineered thermoplastics for dampening vibrations from machinery and other components, manufacturers can ensure precision and accuracy in their products.

How to get the optimal performance from your ET parts

To get the most optimal performance from your engineered thermoplastics parts for vibration dampening, it is important to understand the design and material requirements. The material should be carefully selected based on the application requirements, such as temperature, environmental exposure, and service life.

In addition, proper installation methods should be employed, including proper fastener selection and torque values. This will allow you to achieve maximum performance from your engineered thermoplastics parts and ensure they are safely secured in place with minimal vibration or stress.

Benefits of using engineered thermoplastics over other materials

●    Engineered thermoplastics are an ideal choice for vibration dampening, thanks to their superior mechanical strength and resistance to high temperatures.

●    Thermoplastics also have a low coefficient of thermal expansion, which allows them to keep their shape even in high temperature or shock conditions.

●    To further reduce vibration and noise, most engineered thermoplastics incorporate special lubricants into the material that minimizes friction between components.

●    When properly maintained, engineered thermoplastics can offer increased service life compared to other materials due to their resistance to wear and tear.

Troubleshooting problems and ensuring quality with ET parts

Professionals use Engineered Thermoplastics to ensure that parts perform well under vibration and shock conditions. A good quality ET material will reduce vibrations, noise, and thermal expansion caused by the application of force.

However, if the part is not properly designed or constructed with the right materials and techniques, it may not be able to withstand even the most moderate levels of vibration. This is why engineers need to troubleshoot any potential problems early on in the design process before proceeding with production. Doing so can help reduce costly rework in the future and allow for a higher-quality final product.

About Author:

Michael Luis has an author, Who has been vehemently writing industrial Mechanism related articles for about 5years. He enjoys writing stuffs on Engineered Thermoplastics, Vibration Dampening and thermoplastic composite material related for Ecomass Technologies.