Implementations for architectural noise control

Noise control is one of the most vital concerns in architecture, industries and various other applications. Noise control is not only conducive to a more convenient environment, when vibration goes beyond control, it may cause mechanical damage and other hazards to buildings, equipment and much more.

There is an assortment of solutions used for architectural noise control but many of them are developments of technology that has been around for years.

Injection molded rubber

Injection molded materials are among the most frequent solutions to noise control. The implementations of these types of noise barriers comprise of various scenarios with which most people are familiar. For example, injection molded materials on the interiors of the car doors offer noise control that keeps road noise from overtaking the ambience within the cab. Obviously, these materials also offer a buffer that prevents the metal parts of the door from being damaged by the vibrations generated while driving.

These materials are also found in same types of applications in the industrial buildings. Seals on the doors offer a way to keep the manufacturing noise restricted in one specific area of the building. They also offer a vital environmental control by preventing materials from one section of the building from polluting the other.

Noise Implications

Noise is much more than just an annoyance. Obviously it is created by concussion waves in the environment. In an ambiance, where noise levels are quite high, these concussion waves may translate into vibrations that may damage electronic device, machinery and that may cause a severe health risk. Rubber is generally used as a noise controlling material. There are various types of rubber available, some of them are natural and some are synthetic. Many of them are improved with other materials to bestow them more softness, flexibility or other features.

In many scenarios, rubber molding is used for noise control and shock absorption. These implementations include the ones where large machinery has a vital range of motion that obviously generates a tremendous amount of energy. Rubber molding can assist that energy and dispel it harmlessly rather than having it transmitted to the ambience if the noise is transmitted to other machinery as a force. You can also use noise absorbing curtains to prevent these noises from going out.

Most of the computer fans and other equipments used in the computer cabinets have rubber molding included in it to offer a better seal and to ensure that vibration doesn’t cause damage to the parts.

Noise control is a vital consideration for any industry. Along with keeping staffs safe from permanent damage to their hearing, it also keeps the machinery safe from being damaged due to the amount of energy that noise can transfer. In most cases, the materials used in sound absorbing curtains to keep noise in control include synthetic rubbers that have been in use for years and that still offer remarkably dependable results.

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