Testing an assembly to determine its STC or IIC value can be done in the field, but laboratory tested assemblies predominate in building design and the following content includes only values based on laboratory testing. In both cases, the higher the value the better the sound isolation performance. O Floor/Ceiling Systems – The ability of a floor/ceiling system to inhibit the sound of footsteps and other floor “ impacts” from passing through the assembly into the space below is called its Impact Isolation Class (IIC). The ability of a wall or floor/ceiling assembly to reduce the sound energy passing from one space through a partition and into an adjoining space is described in one of two ways: o For Wall Systems – The effectiveness of the assembly to inhibit “ airborne” noise vibrations from passing through the wall is identified as its Sound Transmission Class (STC). Reducing volume is one of the primary objectives of noise control and one of the main tasks in this process is to block or interfere with the effective transfer of sound energy from its source, through the air and the structure itself, to the occupants in the space. For example, a whisper is about 20 dB, normal conversation is 60 dB and jet engine noise is in the range of 120 dB. Volume – Volume is the loudness of sound and reflects the energy contained in a sound wave measured by the height or amplitude of the wave and stated in terms of decibels (dB). Typically the human ear can detect sounds that range from 20 to 20,000 Hz with the highest note on a piano being about 4100 Hz, human speech ranging from about 150 to 3500 Hz, and the bass notes on a stereo from about 40 to 55 Hz. The lower the frequency the deeper the pitch. The higher the frequency, measured in hertz (Hz), the higher the sound pitch. Pitch – Pitch is often described as how high or deep a sound is and pitch varies based on the number or frequency of sound waves a noise source produces in one second. The brain processes these vibrations as audible sounds.Two important sound characteristics are pitch and volume. These vibrations or sound waves travel through the air and through surrounding materials to the ear where they cause the eardrum to start vibrating as well. Sound or noise is the product of vibrations that radiate from a source such as a person speaking or a door closing. However, learning a few key terms and covering some common sound-control strategies demonstrates how gypsum panel products can be used as part of well-designed noise-control assemblies. That’s because no single material or structural component is capable of providing the entire solution on it’s own – realistically or cost efficiently.Finally, the information provided here just touches the surface. In addition, the emphasis is on system solutions. Appropriate sound solutions begin with a clear use objective for each space under design.For the purposes of this information, the focus is sound attenuation, recognizing that noise reduction between spaces in a structure is the primary objective of the wall and floor/ceiling assemblies proposed. In fact, no one strategy will work in every space within the same structure. No single sound-control strategy works for every structure. Just like many other characteristics of a structure that can be optimized for the benefit of its occupants, better sound performance may mean amplification in the case of a concert hall or attenuation in the case of a hotel room. 2015 Study on Respirable Crystalline Silica.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |