Weyerhaeuser Company contacted All Noise Control to discuss their soundproofing issues and All Noise Control came up to a conclusion that ANC-AB110EXT- R2 would be best fit for that project. This product is a sound absorber and used for an outdoor application. Which means that it is UV resistant, and had a maximum durability. This product is typically use as modular curtains on long – term construction or just a permanent outdoor application such as enclosing HVAC equipment. This product is two inch thick, vinyl coated polyester faced one-inch quilted fiberglass and one pound per square foot reinforced loaded vinyl barrier. This will help for sound absorption.

Client: Weyerhaeuser Company

Weyerhaeuser Company began more than 100 years ago with 900,000 acres of timberland, three employees, and a small office in Tacoma, Washington. Their company’s namesake, Frederick Weyerhaeuser, and their original investors were forest industry experts who contributed capital and, perhaps more important, their experience, reputations and values to the new business. Forestry expertise and commitment to values has held Weyerhaeuser in good stead for more than a century. Today they own or manage 22 million acres of timberland with offices or operations in 10 countries. They invite you to explore our history, with an eye toward our exciting future.

 All Noise Control supplies and custom manufacturers a wide variety of cost effective, high performance acoustical products for noise control in commercial, industrial, institutional markets as well as other specific markets like Houses of Worship. All Noise Control has been front-runners in delivering specialized noise control materials solving virtually any noise control issue. Be it improved acoustics for theater, broadcasting and audio or churches or blocking noise in industrial plants, heavy construction sites, outdoor large scale applications and others to many to list.

Weyerhaeuser Company contacted All Noise Control to discuss their soundproofing issues and All Noise Control came up to a conclusion that ANC-AB110EXT- R2 would be best fit for that project. This product is a sound absorber and used for an outdoor application. Which means that it is UV resistant, and had a maximum durability. This product is typically use as modular curtains on long – term construction or just a permanent outdoor application such as enclosing HVAC equipment. This product is two inch thick, vinyl coated polyester faced one-inch quilted fiberglass and one pound per square foot reinforced loaded vinyl barrier. This will help for sound absorption.

Weyerhaeuser Company was extremely thrilled with the results of the product. The ANC – AB110 EXT-R2 Sound Curtains, with this product they can now work in peaceful environment.

Once you have had a chance to visit this site, contact All Noise Control. Our consultants trained to answer any question, construct a solution to your noise pollution problem, and help you figure out the appropriate products, quantities, and installation guidelines. You may find our division websites useful. We have created them with specific products for specific problems in their respective areas. All Noise Control welcomes you to visit our web site at www.allnoiseocntrol.com or to contact our specialist at 561-964-9360.

Idaho National Laboratory contacted All Noise Control to help them find a great solution to their noise control issues they experienced their office. After discussing their application All Noise Control provided, Idaho National Laboratory, with a solution, that would help with the soundproofing, issues by suggesting using the soundproofing blanket ANC-AB12

In operation since 1949, INL is a science-based, applied engineering national laboratory dedicated to supporting the U.S. Department of Energy’s missions in nuclear and energy research, science, and national defense. Ensure the nation’s energy security with safe, competitive, and sustainable energy systems and unique national and homeland security capabilities. By 2015, INL will be the pre-eminent nuclear energy laboratory with synergistic, excellent, multi-program capabilities and partnerships. Leading a senior management team of eighteen is Laboratory Director John J. Grossenbacher, a Vice Admiral, U.S. Navy (ret.), a Naval Academy graduate and one of the nation’s most respected leaders. At the time of his retirement from the Navy, Mr. Grossenbacher commanded all United States submarine forces.

All Noise Control supplies and custom manufacturers a wide variety of cost effective, high performance acoustical products for noise control in commercial, industrial, institutional markets as well as other specific markets like Houses of Worship. All Noise Control have been front-runners in delivering specialized noise control materials solving virtually any noise control issue. Be it improved acoustics for theater, broadcasting and audio or churches or blocking noise in industrial plants, heavy construction sites, outdoor large scale applications and others to many to list. All Noise Control is sure that with their variety of acoustical materials, in multiple colors, shape and size options tailored to fit your needs.

Idaho National Laboratory contacted All Noise Control to help them find a great solution to their noise control issues they experienced their office. After discussing their application All Noise Control provided, Idaho National Laboratory, with a solution, that would help with the soundproofing, issues by suggesting using the soundproofing blanket ANC-AB12

This product has the benefit of both soundproofing and noise barriers. All Noise Control’s ANC-AB12 consists of a non-reinforced 1-lb psf loaded vinyl noise barrier sandwiched between two layers of vinyl-coated fiberglass-cloth faced 1″ quilted fiberglass sound absorbers.

• Curtain panels with grommets across the top, hooked and loop fasteners along the vertical edges
  
• Rolls are available in 4′ wide x 25′ long and can be supplied with edges bound or unbound
  
• Class A(or1) flammability rated per ASTM E84
  
• Available colors: gray, white, black and tan
  

The applications typically used includes curtain panels in acoustical curtains enclosures also used to separate walls or divide partitions between noise sources, commonly used to line the perimeter walls of a building, or as a free-hanging noise barrier/sound absorber wall.

Idaho National Laboratory placed the order and installed ANC-AB12, which is an acoustic quilted fiberglass absorption blanket. After they installed the product, they were satisfied with the results. However, Idaho National Laboratory experiences a significant drop decibel making that area of the pant more manageable and safer for workers.

Visit our ANC-AB12 Acoustic Curtain Panel page to see the wide selection of products. Once you have had a chance to visit this site, contact All Noise Control. Our consultants trained to answer any question, construct a solution to your noise pollution problem, and help you figure out the appropriate products, quantities, and installation guidelines. Call at 561-964-9360 or visit the website at www.allnoisecontrol.com. 

Syncro Corporation contacted All Noise Control and after discussing their application All Noise Control provided, Syncro Corporation with a solution, that would help them by suggesting acoustical blankets ANC-AB12. This product has the benefit of both soundproofing and noise barriers. All Noise Control’s ANC-AB12 consists of a non-reinforced 1-lb per square foot loaded vinyl noise barrier sandwiched between two layers of vinyl-coated fiberglass-cloth faced 1” quilted fiberglass sound absorbers.

Client: Syncro Corporation

Syncro Corporation is a privately held manufacturing and systems integration company with corporate headquarters located in the North Alabama region just minutes away from Huntsville, Alabama. Huntsville, Alabama has been recognized nationally for its highly skilled worked force and contributions in the fields of research, development, manufacturing, and logistics. The level of skilled workforce and close proximity to Redstone Arsenal, home to the Army Aviation and Missile Command, NASA, and to the second largest research park in the United States offers Syncro customers a distinct advantage. Syncro has expanded its EMS capabilities into various markets including medical, industrial, utilities, transportation, technology, and military markets. Syncro Corporation offers more than 70 years of experience in product research and development, management, and post manufacturing support.

All Noise Control supplies and custom manufacturers a wide variety of cost effective, high performance
acoustical products for noise control in commercial, industrial, institutional markets as well as other specific markets like Houses of Worship. All Noise Control has been front-runners in delivering specialized
noise control
materials solving virtually any noise control issue. Be it improved acoustics for theater, broadcasting and audio or churches or blocking noise in industrial plants, heavy construction sites, outdoor large scale applications and others to many to list. They are sure that with our variety of
acoustical materials, in multiple colors, shape and size options tailored to fit your needs.

Syncro Corporation contacted All Noise Control and after discussing their application All Noise Control provided, Syncro Corporation
with a solution, that would help them by suggesting acoustical blankets ANC-AB12. This product has the benefit of both soundproofing and noise barriers. All Noise Control’s ANC-AB12 consists of a non-reinforced 1-lb per square foot loaded vinyl noise barrier sandwiched between two layers of vinyl-coated fiberglass-cloth faced 1″ quilted fiberglass sound absorbers.

Acoustical Curtain panels with grommets across the top, hooked and loop fasteners along the vertical edges

Rolls are available in 4′ wide x 25′ long and can be supplied with edges bound or unbound

Class A (or1) flammability rated per ASTM E84

Available colors: gray, white, black and tan

The applications typically used includes curtain panels in acoustical curtains enclosures also used to separate walls or divide partitions between noise sources, commonly used to line the perimeter walls of a building, or as a free-hanging noise barrier/sound absorber wall.

Our Client, Syncro Corporation order that product and install the product, the result of the product were amazing, they were very pleased with the results.

All Noise Control welcomes you to visit us at www.allnoisecontrol.com or you can contact us at    561-964-9360 for more information, Once you have had a chance to visit this site, contact All Noise Control. Our consultants are trained to answer any question, construct a solution to your noise pollution problem, and help you figure out the appropriate products, quantities, and installation guidelines. You may find our division websites useful. We have designed it with specific products for specific problems in their respective areas.

Veino Woodworks contacted All Noise Control for a product that reduces sound from transmitting through walls, floors, and ceiling.

Client: Veino Woodworks

All Noise Control

All Noise Control supplies and custom manufacturers a wide variety of cost effective, high performance acoustical products for noise control in commercial, industrial, institutional markets. All Noise Control has been front-runners in delivering specialized noise control materials solving virtually any noise control issue. Be it-improved acoustics for theater, broadcasting & audio or churches or blocking noise in industrial plants, heavy construction sites, outdoor enlarge applications and others to many to list. They are sure that with our variety of acoustical materials, in multiple colors, shape and size options tailored to fit your needs.

Veino Woodworks contacted All Noise Control; they need to find a product that reduces sound from transmitting through walls, floors, and ceiling. It has also to correct noise problems in existing spaces. Veino Woodworks felt 100% confident that their decision to use All Noise Control was the right decision.

The main goal for All Noise Control was to find the ideal product for Veino Woodworks. That consists with their request, reduces sound from transmitting through walls, floors, and ceiling. It has also to correct noise problems in existing spaces.

All Noise Control explain to Veino Woodworks that they had a product that could do the job. The product is the Acoustical Vinyl Sound Barrier. This product has a high-density thin, weighted barrier, constructed of non-reinforced high temperature fused vinyl with no lead filters. Weighs one pound per square foot and is 1/8″ thick. Apply to block transmission of sound through walls, floors, and ceilings. Also effective as a pipe and duct wrap to damper vibrations and reduce noise. Also available in a reinforced version designed to sustain its own vertical weight for suspension.

Our Client, Veino Woodworks order that product and install the product, the result of the product were amazing; they were very pleased with the results. The Acoustical Vinyl Sound Barrier was the ideal product.

All Noise Control welcomes you to visit the Vinyl Sound Barrier page at www.allnoisecontrol.com or you can contact our sales department at 561-964-9360 for more information, Thank you!

Once you have had a chance to visit this site, contact All Noise Control. Our consultants trained to answer any question, construct a solution to your noise pollution problem, and help you figure out the appropriate products, quantities, and installation guidelines. You may find our division websites useful. We have designed them with specific products for specific problems in their respective areas.

Acoustical Glossary of Terms

Glossary of Terms

A-C

Absorption
The properties of a material composition to convert sound energy into heat thereby reducing the amount of sound energy that can be reflected.

Acoustical
The properties of a material to absorb or reflect sound (adjective) acoustically, (adverb).

Acoustical Analysis
A review of a space to determine the level or reverberation or reflected sound in the space (in seconds) as influenced by the building materials used to construction the space. Also, a study of the amount of acoustical absorption required to reduce reverberation and noise.

Acoustical Environment
The acoustical characteristics of a space or room influenced by the amount of acoustical absorption, or lack of it, in the space.

Acoustics
Acoustics is the science of sound, including its production, transmission and effects. The acoustics of a room are those qualities that together determine its character with respect to the perception of sound.

Ambient Noise
Ambient noise encompasses all sound present in a given environment, being usually a composite of sounds from many sources near and far.

Architectural Acoustics
The control of noise in a building space to adequately support the communications function within the space and its effect on the occupants. The qualities of the building materials used to determine its character with respect to distinct hearing.

Area Effect
Acoustical materials spaced apart can have greater absorption than the same amount of material butted together. The increase in efficiency is due to absorption by soft exposed edges and also to diffraction of sound energy around panel perimeters.

ASTM
Acronym for American Society of Testing and Materials

ASTM E84
Test Method for Surface Burning Characteristics of Building Materials. This test evaluates the spread of fire along the surface materials. It is not a fire resistance test.

Attenuation
The reduction of sound energy as a function of distance traveled.

A-Weighted Sound Level
A measure of sound pressure level designed to reflect the response of the human ear, which does not respond equally to all frequencies. To describe sound in a manner representative of the human ear’s response it is necessary to reduce the effects of the low and high frequencies with respect to the medium frequencies. The resultant sound level is said to be A-weighted, and the units are dBA. The A-weighted sound level is also called the noise level. Sound level meters have an A-weighting network for measuring A-weighted sound levels.

Audiometer
An instrument for measuring hearing acuity.

Baffle
A free hanging acoustical sound absorbing unit. Normally suspended vertically in a variety of patterns to introduce absorption into a space to reduce reverberation and noise levels.

Boominess
Low frequency reflections. In small rooms, acoustical panels with air space behind can better help control low frequency reflectivity.

Cloud
In acoustical industry terms, an acoustical panel suspended in a horizontal position from ceiling/roof structure. Similar to a baffle but in a horizontal position.

Cocktail Party Effect
Sound in a noisy crowded room generated mostly by conversation. Levels rise and fall as people compete with one another to be heard. Perception of speech can be nearly impossible in high levels of noise.

Cycle
In acoustics, the cycle is the complete oscillation of pressure above and below the atmospheric static pressure.

Cycles Per Second

The number of oscillations that occur in the time frame on one second. (See Frequency). Low frequency sounds have fewer and longer oscillations.

D-F

Damping
Damping is the dissipation of vibratory energy in solid media and structures with time or distance. It is analogous to the absorption of sound in air. Please visit our Sound Bytes page for more information.

Decibel (dB)
A dimensionless unit which denotes the ratio between two quantities that are proportional to power, energy or intensity. One of these quantities is a designated reference by which all other quantities of identical units are divided. The sound pressure level in decibels is equal to 10 times the logarithm (to the base 10) of the ratio between the pressure squared divided by the reference pressure squared. The reference pressure used in acoustics is 20 micro Pascals. Please visit our Sound Bytes page for more information.

Deflection
Deflection is the distance an elastic body or spring moves when subjected to a static or dynamic force. Typical units are inches or mm.

Diffusion
The scattering or random reflection of a sound wave from a surface. The directions of reflected sound is changed so that listeners may have sensation of sound coming from all directions at equal levels.

Echo
Reflected sound producing a distinct repetition of the original sound. Echo in mountains is distinct by reason of travel after original signal has ceased.

Elastomeric
Flexible, low modulus material capable of expanding and contracting and returning to original dimensions without fatigue.

Firestop System
An assembly consisting of 1) the penetrant or penetrants 2) the opening through a particular type of wall or floor, and 3) the firestop materials and design that are used to seal the opening or protect the penetrants.

Flame Spread
Classification indicating propagation of flame across a sample compared to flame propagation across concrete panels and red oak. Results are obtained through an ASTM E84 or UL723 test.

Flanking
The transmission of sound around the perimeter or through holes within partitions (or barriers) that reduces the otherwise obtainable sound transmission loss of a partition. Examples of flanking paths within buildings are ceiling path above partitions; ductwork, piping, and electrical conduit penetrations through partitions; back-to-back electrical boxes within partitions, window mullions, etc.

Flutter Echo
Short echoes in small reverberative spaces that produce a clicking, ringing or hissing sound after the original sound signal has ceased. Flutter echoes may be present in long narrow spaces with parallel walls.

Free Field
Sound waves from a source outdoors where there are no obstructions.

Frequency
The number of oscillations or cycles per unit of time. Acoustical frequency is usually expressed in units of Hertz (Hz) where one Hz is equal to one cycle per second.

Frequency Analysis
An analysis of sound to determine the character of the sound by determining the amount of sounds at various frequencies that make up the overall sound spectrum. For example, higher frequency sound or pitch vs. low frequency.

G-I

Hearing Impairment
A degree of hearing loss, temporary or permanent, due to many causes. Hearing loss can be caused by illness, disease, or exposure to excessively high noise levels. Affects 25 – 50 million people in USA of all ages. Hearing impairment as generally used means a hearing loss of mild, moderate or severe degree as opposed to “deafness” which is generally described as little or no residual hearing with or without the aid of an assisting listening device. Hearing impaired persons are particularly adversely affected by long reverberation times.

Hearing Range
16 – 2000 Hz (Speech Intelligibility)
600 – 4800 Hz (Speech Privacy)
250 – 2500 Hz (Typical small table radio)

Hertz (Hz)
Frequency of sound expressed by cycles per second. (See Cycle).

Intensity
See Loudness.

Inverse Square Law
Sound levels fall off with distance traveled. Sound level drops off 6 dB from the source point for every doubling of distance.

 J-L

Live End/Dead End
An acoustical treatment plan for rooms in which one end is highly absorbent and the other end is reflective and diffusive.

Loudness
A listener’s auditory impression of the strength of a sound. The average deviation above and below the static value due to a sound wave is called sound pressure. The energy expended during the sound wave vibration is called intensity and is measured in intensity units. Loudness is the physical resonance to sound pressure and intensity.

M-O

Masking
The process by which the threshold of hearing of one sound is raised due to the presence of another.

Mass
Mass is the fundamental property of a material relevant to sound transmission loss through that material. Generally, the more massive the material, the greater the sound transmission loss.

Mounting
Standards established by ASTM to represent typical installation for purpose of testing materials. For example, a mounting test specimen is mounted directly the test room surface or furred out to produce an air space behind.

Noise
Unwanted sound that is annoying or interferes with listening. Not all noise needs to be excessively loud to represent an annoyance or interference.

Noise Criteria (NC)
Noise criteria curves used to evaluate existing listening conditions at ear level by measuring sound levels at the loudest locations in a room. NC criteria can be referred to equivalent dBA levels.

Noise Isolation Class (NIC)
A single number rating of the degree of speech privacy achieved through the use of an Acoustical Ceiling and sound absorbing screens in an open office. NIC has been replaced by the Articulation Class (AC) rating method.

Noise Reduction (NR)
The amount of noise that is reduced through the introduction of sound absorbing materials. The level (in decibels) of sound reduced on a logarithmic basis.

Noise Reduction Coefficient (NRC)
The NRC of an acoustical material is the arithmetic average to the nearest multiple of 0.05 of its absorption coefficients at 4 octave bands with center frequencies of 250, 500, 1000, 2000 Hertz. The NRC rating can be viewed as a percentage (example: .80 = 80%) of what sound waves that come in contact with the acoustical material are absorbed by the material and NOT reflected back within the room.

Octave
A pitch interval of 2 to 1. The tone whose frequency is twice that of the given tone.

Octave Bands
Sounds that contain energy over a wide range of frequencies are divided into sections called bands. A common standard division is in 10 octave bands identified by their center frequencies 31.5, 63, 250, 500, 1000, 2000, and 4000 Hz

 

P-R

Pitch
The perceived auditory sensation of sounds expressed in terms of high or low frequency stimulus of the sound.

Reflection
The amount of sound wave energy (sound) that is reflected off a surface. Hard non-porous surfaces reflect more sound that soft porous surfaces. Some sound reflection can enhance the quality of the signal of speech and music.

Resonance
The emphasis of sound at a particular frequency.

Resonant Frequency
Resonant Frequency is a frequency at which resonance exists.

Reverberation
Sound after it is ended at the source will continue to reflect off surfaces until the sound wave loses energy by absorption to eventually die out. Please visit our Sound Bytes page for more information.

Reverberation Time
The reverberation time of a room is the time it takes for sound to decay by 60 dB once the source of sound has stopped. Reverberation time is the basic acoustical property of a room which depends only on its dimensions and the absorptive properties of its surfaces and contents. Reverberation has an important impact on speech intelligibility.

S-U

Sabin
A unit of sound absorption based on one square foot of material. Baffles are frequently described as providing X number of sabins of absorption based on the size of the panel tested through the standard range of 125 – 4000 Hz. The number of sabins developed by other acoustical materials are determined by the amount of material used and its absorption coefficients.

Sabine Formula
A formula developed by Wallace Clement Sabine that allows designers to plan reverberation time in a room in advance of construction and occupancy. Defined and improved empirically, the Sabine Formula is T=0.049(V/A) where T=Reverberation time (time required for sound to decay 60 dB after source has stopped) in seconds. V=Volume of room in cubic feet. A=total square footage of absorption in sabins.

Septum
A thin layer of material between 2 layers of absorptive material, such as foil, lead, steel, etc. that prevents sound wave from passing through absorptive material.

Signal to Noise Ratio
The sound level at the listeners ear of a speaker above the background noise level. The inverse square law impacts the S/N ratio.

Smoke Developed Index
Classification that relates to a comparison of smoke development of a particular material compared to concrete panels and red oak. Results are obtained through an ASTM E84 or UL723 test.

Sound
Sound is an oscillation in pressure, stress particle displacement, particle velocity in a medium. Sound produces an auditory sensation caused by the oscillation.

Sound Absorption
The property possessed by materials, objects and air to convert sound energy into heat. Sound waves reflected by a surface causes a loss of energy. That energy not reflected is call is absorption coefficient.

Sound Absorption Coefficient
The fraction of energy striking a material or object that is not reflected. For instance, if a material reflects70% of the sound energy incident upon its surface, then its Sound Absorption Coefficient would be 0.30. SAC=absorption/area in sabins per sq. ft.

Sound Barrier
A material that when placed around a source of noise inhibits the transmission of that noise beyond the barrier. Also, anything physical or an environment that interferes with communication or listening. For example, a poor acoustical environment can be a barrier to good listening and especially so for persons with a hearing impairment.

Sound Level
A subjective measure of sound expressed in decibels as a comparison corresponding to familiar sounds experienced in a variety of situations.

Sound Pressure
The sound pressure is the total instantaneous pressure at a point in space, in the presence of a sound wave, minus the static pressure at that point.

Sound Pressure Level
The sound pressure level, in decibels, of a sound is 20 time the logarithm to the base of 10 of the ratio of the sound pressure to the reference pressure. The reference pressure shall be explicitly stated and is defined by standard.

Sound Level Meter
A device that converts sound pressure variations in air into corresponding electronic signals. The signals are filtered to excluded signals outside frequencies desired.

Sound Transmission Class (STC)
This is a rating for doors, windows, enclosures, noise barriers, partitions and other acoustical products. The rating is in terms of their relative ability to provide privacy against intrusion of speech sounds. This is a one number rating system, heavily weighted in the 500Hz to 2000Hz frequency range where speech intelligibility largely occurs.

Speech Intelligibility
The ability of a listener to hear and correctly interpret verbal messages. In a classroom with high ceilings and hard parallel surfaces such as glass and tile, speech intelligibility is a particular problem. Sound bounces off walls, ceilings and floors, distorting the teacher’s instructions and interfering with students’ ability to comprehend. Centers between 250 and 4000k.

Speech Privacy
The degree to which speech is unintelligible between offices. Three ratings are used: Confidential, Normal (Non Obtrusive) and Minimal.

Spectrum
The description of a sound waves components of frequency and amplitude.

Time Weighted Average (TWA)
The yardstick used by the Occupational Safety and Health Administration (OSHA) to measure noise levels in the workplace. It is equal to a constant sound level lasting eight hours that would cause the same hearing damage as the variable noises that a worker is actually exposed to. (This hearing loss, of course, occurs over long-term exposures.) Same as LOSHA.

Ultrasounds
Sounds of a frequency higher than 20,000 Hz. The frequency region containing these frequencies is called the ultrasonic region.

V-Z

Vibration
Vibration is a force which oscillates about some specified reference point. Vibration is commonly expressed in terms of frequency such as cycles per second (cps), Hertz (Hz), cycles per minute (cpm) or (rpm) and strokes per minute (spm). This is the number of oscillations which occurs in that time period. The amplitude is the magnitude or distance of travel of the force.

Vibration Isolator
A resilient support that tends to isolate a mechanical system from steady state excitation.

Volume
The cubic space of a room bounded by walls, floors, and ceilings determined by the Volume=Length x Width x Height of space. Volume influences reverberation time.

Wavelength
Sound that passes through air produces a wavelike motion of compression and refraction. Wavelength is the distance between two identical positions in the cycle or wave. Similar to ripples or waves produces by dropping a stone in water. Length of sound wave varies with frequency. Low frequency equals longer wavelengths.

How to Stop Sound

Sound is a form of energy that travels as a wave – when that wave hits a barrier as in a sheet of drywall, that barrier will vibrate and cause the air on the other side to vibrate, thus transferring the sound through the wall. There is no one-shot soundproofing technique that will stop noise in its tracks; rather we try to employ a combination of solutions to achieve solid performance.

The four most important elements of soundproofing are:

1. Absorption
   
2. Damping
   
3. Decoupling
   
4. Mass
   

Absorption can be achieved by installing fiberglass of R-11 in 2×4 walls and R-19 in 2×6 walls and ceilings. Although fiberglass is not a major player, only adding 3-4 points, it is still a step that should be done in any serious soundproofing project

Damping is the process of turning your barriers (drywall, sub floors) into dead panels that do not vibrate, thus preventing sound from passing through them. Damping is achieved by applying a damping compound in between two constrained layers.

Decoupling is meant to separate the attachment of walls from the studs, thereby breaking the direct path of sound, which can be done using resilient channel, and more importantly – with resilient sound clips. This decoupling technique actually adds another component called “resilience” to the walls. [Click here for an in depth explanation to decoupling].

Mass simply means creating a heavier wall by using more (another layer) and/or thicker material.

How Is Noise Tested?

Let’s take a look at a very popular term called STC (Sound Transmission Class) which is an industry standard to calculate sound transmission through barriers. Many building codes now require condos and townhouses to meet a STC of 50; luxury hotels and condos should be looking to reach 60 and higher.

STC	Performance	Description
20-25	Very Poor	Low speech audible
25-30	Poor	Normal speech understood
30-35	Fair	Loud speech understood
35-40	Good	Loud speech heard, but hardly intelligible
40-50	Very Good	Loud speech heard faintly
50-60	Excellent	Loud sounds barely heard

A standard 2×4 wood stud wall with 1/2″ drywall 16″ O.C. has an STC of 32. An important point to keep in mind is that STC testing only tests on frequency ranges from 125 – 4000 Hz. One problem with this type of classification is that a lot of the common noise issues are due to sounds that fall below or above this range. Examples of such sounds are bass drums, deep male voice, trucks, etc. – all of these can start at 50 Hz. High pitched female voices, shrill ringing of phone and auto horns are good examples of sounds that reach above the 4000 Hz range.

This will explain why many big projects, after having paid tens of thousands of dollars for acoustical engineers and getting thousands of pages of tested soundproofing materials with lab testing of STC’s of 50 and above, still receive complaints for poor acoustical performance.

For good measure we will add one more reason for poor performance results: the fact that although material can test to a STC of 25 for instance, does not mean that when added to a wall assembly of  32 (like a standard 2×4 wall) that the end result will be a STC of 57 (25+32=57). In reality, it may only add 2-3 points to the wall bringing it to a STC of 35. A perfect example of this phenomenon is the much touted Mass Loaded Vinyl and all the other brand names that it is sold under.

Costco Wholesale Corporation contacted All Noise Control to help them find a great solution to their noise control issues they experienced. After discussing their application All Noise Control provided, Costco Wholesale Corporation, with a solution, that would help with the soundproofing, issues by suggesting using the acoustical blankets ANC-AB12

Client: Costco Wholesale Corporation

Costco Wholesale Corporation operates an international chain of membership warehouses, mainly under the “Costco Wholesale” name, that carry quality, brand name merchandise at substantially lower prices than are typically found at conventional wholesale or retail sources. The warehouses designed to help small-to-medium-sized businesses reduce costs in purchasing for resale and for everyday business use. Individuals may also purchase for their personal needs. Costco’s warehouses present one of the largest and most exclusive product category selections found under a single roof. Categories include groceries, candy, appliances, television and media, automotive supplies, tires, toys, hardware, sporting goods, jewelry, watches, cameras, books, house wares, apparel, health and beauty aids, tobacco, furniture, office supplies and office equipment. Costco is known for carrying top quality national and regional brands, with 100% satisfaction guaranteed, at prices consistently below traditional wholesale or retail outlets. Members can also shop for private label Kirkland Signature products, designed to be of equal or better quality than national brands, including juice, cookies, coffee, tires, house wares, luggage, appliances, clothing, and detergent. The Company also operates self-service gasoline stations at a number of its U.S. and Canadian locations. Additionally, Costco Wholesale Industries, a division of the Company, operates manufacturing businesses, including special food packaging, optical laboratories, and meat processing and jewelry distribution. These businesses have a common goal of providing members with high quality products at substantially lower prices.

All Noise Control

All Noise Control supplies and custom manufacturers a wide variety of cost effective, high performance acoustical products for noise control in commercial, industrial, institutional markets as well as other specific markets like Houses of Worship. All Noise Control have been front-runners in delivering specialized noise control materials solving virtually any noise control issue. Be it improved acoustics for theater, broadcasting and audio or churches or blocking noise in industrial plants, heavy construction sites, outdoor large scale applications and others to many to list. All Noise Control is sure that with their variety of acoustical materials, in multiple colors, shape and size options tailored to fit your needs.

Costco Wholesale Corporation contacted All Noise Control to help them find a great solution to their noise control issues they experienced. After discussing their application All Noise Control provided, Costco Wholesale Corporation, with a solution, that would help with the soundproofing, issues by suggesting using the acoustical blankets ANC-AB12

This product has the benefit of both soundproofing and noise barriers. All Noise Control’s ANC-AB12 consists of a non-reinforced 1-lb psf loaded vinyl noise barrier sandwiched between two layers of vinyl-coated fiberglass-cloth faced 1″ quilted fiberglass sound absorbers.

Curtain panels with grommets across the top, hooked and loop fasteners along the vertical edges

Rolls are available in 4′ wide x 25′ long and can be supplied with edges bound or unbound

Class A (or1) flammability rated per ASTM E84

Available colors: gray, white, black and tan

The applications typically used includes curtain panels in acoustical curtains enclosures also used to separate walls or divide partitions between noise sources, commonly used to line the perimeter walls of a building, or as a free-hanging noise barrier/sound absorber wall.

Costco Wholesale Corporation placed the order and installed ANC-AB12, which is an acoustic quilted fiberglass absorption blanket. After Costco Wholesale Corporation installed the product, they were satisfied with the results. However, Costco Wholesale Corporation experiences a significant drop decibel making that area of the pant more manageable and safer for workers.

Once you have had a chance to visit this site, contact All Noise Control. Our consultants trained to answer any question, construct a solution to your noise pollution problem, and help you figure out the appropriate products, quantities, and installation guidelines.

All Noise Control invite you to call at 561-964-9360-to discuss the noise material supplied this particular installation or to our address: www.allnoisecontrol.com any of your noise control issues. We would be happy listen to your individual needs and supply you.

tilessoundproofing ceiling tile installation instructions

Sound Barrier Ceiling Tile is a double duty soundproofing ceiling tile. It works for both lowering sound transmission as well as reducing reverberation.
These ceiling tiles are designed to be dropped into an existing ceiling grid system. When it is necessary to cut the tiles to fit existing openings, follow the following steps

Measure your ceiling grid opening. Be sure to measure from inside to inside, then deduct 1/8″ from your results. This will allow the tile to slip into the grid with ease.

Lay the tile on a clean and smooth surface and mark off your measurements on the back of the tile. Use a straight edge (preferably metal) as a guide for a sharp razor tool. Cut the tile, a couple of passes maybe required.

Drop the cut tile into your grip system

Material typically required completing installation: Noise Barrier Ceiling Tiles, standard T-grid system

1. The Noise Barrier Ceiling Tiles (NBCT) are die cut to fit into a standard T-grid system, on top of existing ceiling tiles.

2. Lay individual NBCT’s on top of existing ceiling tiles.

a. You can leave the existing ceiling tiles in place or you can remove the existing ceiling tiles, place the NBCT on top and re-install the existing ceiling tile (with the NBCT now on top)

Soundproofing Installation Instructions: Acoustical Pipe Lagging

Installation Instructions: Acoustical Pipe Lagging

(ANC-WB-21 and ANC-WB42)

1.  Determine the circumference of the duct or pipe to be wrapped. Note additional length required to accommodate thickness of material. Add 2–4 inches overlap of product onto itself. (Note: Quilted Fiberglass side goes up against the Duct or Pipe)

2.  Utilizing standard 54″ wide rolls, cut length as determined above.

3.  After cutting piece from roll install first section on the duct or pipe. Drape the cut piece over the pipe or duct with equal parts of the product hanging over each side. One side is then brought up and adhered to the pipe or duct with a foil lag tape. The other side is then brought up, making sure to overlap the first side, and secured with tape. This method allows for circumferential seams approximately every 50″ to 52″, and a single seam running along the bottom of the pipe or duct.

• Add additional wraps of tape around circumference as required snugging lagging to pipe or duct.
  
• Where specified or as required banding should be installed in addition to tape to secure lag to pipe or duct.
  
• On large rectangular duct work, a mechanical fastener such as stick pins or weld pins should also be utilized, with additional emphasis on supporting product across the bottom to prevent sagging.
  

4.  Cut and install the next section in the same fashion. Each progressive section should overlap the previous section by 2 inches (+/-). Tape this seam with a 4″ wide foil lag tape.

5.  When covering an elbow the usual method is to “gore” the product (as typical in sheet metal construction). See page 2 for instructions.

6.  In all cases the important element is to assure there are no gaps or leaks whatsoever.

What is soundproofing?

Soundproofing

What is soundproofing?

Soundproofing is defined as any method of reducing the ability of sound to travel between point A and point B, and is accomplished by the reduction of noise and the absorption of noise. A requirement in many professional recording studios, soundproofing is also becoming popular in residential structures, especially multi-family structures like apartments and condominiums wherein tenants share walls.

The basics of soundproofing

In order to understand the concept of soundproofing, you must first understand the concept of blocking sound. Specifically, there are only three ways in which sound can be blocked or noise can be reduced. These three ways are as follows: Space – The further away from a source of sound you are, the less likely it is that you will hear the sound.

Space impedes sound travel. Mass – This one is also simple. The more mass between the origin and destination of a sound wave, the less audible the sound wave will be once it reaches its destination point.

Dampening – This one is a bit more complex. Essentially, dampening is a way to absorb sound by forcing sound waves to travel through various layers of material with different densities, thereby obstructing the sound wave’s path of travel, and ultimately absorbing the sound wave before it has a chance to become airborne. Dampening works by limiting a sound wave’s ability to vibrate through different structures. This eventually results in the absorption of the sound wave.

Sound insulations
are insulating materials that work to reduce the noise that enters a room from outside the home or from other rooms. These materials can be installed during construction, or later as an improvement project.

How Sound Insulations Work

Sound is transmitted when vibrations move through the air, floors, ceilings and walls. The sound waves move from one room to the other, or from the outside of the home to inside. This includes traffic noise or the sound of noisy neighbors. Insulation is a good sound absorber and is effective at minimizing the noises entering a room.

Soundproofing consists of using a barrier of some sort to prevent sound from entering the space that has been sound proofed. There are two basic ways to achieve this reduction in sound: noise absorption and noise reduction.

Approaches to Sound Insulations

There are a few approaches to noise level reduction or noise absorption. A variety of materials can be used for either purpose. Noise reduction can be accomplished with the use of space between rooms. The more space, the more room for sound waves to dissipate. If you increase the distance between the source of the noise and the space, you will reduce the noise that enters the space.

The other method, noise absorption, is also referred to as dampening. With this method, the sound waves are converted to heat within the insulation. This increases energy efficiency, while reducing sound. It also suppresses the echoes and reverberation of sound waves.

NRC: The Basics

• The NRC rating for sound absorption materials ranges from 0 (perfectly reflective) to 1 (perfectly absorptive)
  
• It is an average of how absorptive a material is at four different frequencies (250, 500, 1000, and 2000)
  
• Because the rating is an average, two materials with the same rating might not perform the same at all frequencies and in all applications
  
• The NRC can also be viewed as the percentage of sound waves which come into contact with the sound absorption material that are not reflected back within the space.  Example: NRC of .5=50%
  
• Different materials with the same NRC may provide very different results.  Performance at different frequencies may be very different
  
• The NRC rating does NOT measure how well a material can block sound
  
• Depending on a material’s shape and surface area, some acoustic soundproofing products can test at an NRC above 1

SOUND BLOCKING with sound insulation material stops sound from entering or leaving a room. Sound insulation material is perfect for blocking loud music, voices, traffic, and many other distractions.  Look for sound blocking materials with a high Sound Transmission Class (STC) rating.  This number, the higher the better, indicates how effective a certain sound insulation material is at sound blocking.  For instance, sound insulation material with a 35 STC would block most normal speech while material with a rating of 60 would render most sounds inaudible.

STC is roughly the decibel reduction in noise a material/partition can provide, abbreviated ‘dB’. The human ear perceives a 10dB reduction in sound as roughly reducing the volume by half. For example, a sound reduction from 50dB to 40dB seems half as loud. This is an important fact to keep in mind when considering a sound solution that ‘fits’ the problem. To understand how to soundproof a wall to create a higher STC rating

Common STC Ratings

A common acoustic issue in virtually any space is sound transmission. Sound transmission can be both airborne and/or structure borne vibration. (Structure borne vibration is assessed by a different standard, Impact Insulation Class – IIC, and is not addressed in this text). Airborne sound travels through the air and can transmit through a material, assembly or partition. Sound can also pass under doorways, through ventilation, over, under, around, and through obstructions. When sound reaches a room where it is unwanted, it becomes noise. Noise such as that from automobiles, trains and airplanes can transmit through the exterior structure of a building. In the same way, noise from mechanical equipment or speech can transmit from one room within a building to an adjacent space.

Sound transmission can cause noise control, confidentiality, and privacy issues. Sound from a noisy environment such as a mechanical equipment room or an area with loud activities or music can transmit through a partition into a quieter space. This will cause unwanted noise within the quieter space. This is not only an annoyance; in several cases it can cause the quieter space to become unusable for its intended purpose. Several spaces require confidentiality. Offices of counselors, lawyers, or human resource departments cannot function in a space where sound will transmit through the surrounding walls and into an adjacent space. In most other office situations if confidentiality is not an issue, privacy is. If sound transmission is not properly controlled, the space or environment will not provide privacy for its users.

• When soundproofing rooms, the STC of your doors & windows need to be equal to or greater
than the STC of your walls in order to maximize the rating.

• Structurally decoupling drywall panels from each other (using steel studs, a staggered-stud wall, double wall stud, or resilient channels) can produce an STC rating as high as 63 (for a double stud wall) and will result in effective low-frequency loss.  This figure, when compared to a normal wall with an STC of 33, will make most frequencies inaudible, making the room sound 88 percent quieter.

• Music-related sounds may require the highest STC ratings.  In practical terms, a 55 STC rating will prevent a resident living in a multi-family home from being bothered at all by their neighbor’s loud music.

Soundproofing Materials

Looking for
soundproofing materials, advice and resources?  You’ve come to the right place.  Soundproofing Noise Control
is your ultimate soundproofing solution.  We have a full range of soundproofing materials to fit any need at the lowest prices.  No matter what your sound proofing requirements involve, we can help you get the best possible results.

We carry all industry standard sound proofing materials as well as hard to find sound proofing materials such as stud and joint isolators, dBA sound absorption panels and much, much more.  Why spend time looking through multiple websites with limited selection when you can find all the sound proofing materials you will ever need at All Noise Control?

Contact our soundproofing experts for advice on which products will work best for your situation or look through our extensive selection of soundproofing resources that will answer some of the most commonly asked questions.  Whether you are building a studio, constructing a recording booth or simply trying to eliminate outside noise, we have the professional products and experience in the sound proofing field that will help you complete your next project.

Within the industrial markets noise barrier controls are a completely necessary acoustic material in battling noise control and noise safety issues.

Do you need to solve any of these issues?

• Equipment Noise
  
• Meeting OSHA & Worker Safety noise requirements
  
• Industrial HVAC/Piping Noise
  
• Heavy Construction Noise
  
• Generator Noise & Vibration
  
• Water Plant & Treatment Facility noise (generators, piping)
  

Industrial noise is a global, large scale problem effecting our environment and safety of the community. Not only meeting legal requirements let alone providing your workers and the surrounding community with effective noise mitigation solutions is critical. Solving your Industrial Noise Control problem with our industrial barriers can be a complex task, which ALL Noise Control can simplify for you.

Not sure which soundproofing material meets your needs? Just call us (561) 964-9360, we’ll be happy to walk you through our products and solve your noise control problem.