Music Recording Studio Sound Absorbing Panels Fabric Acoustic Panel
Product Introduction
Prefabricated fabric wrapped acoustic panels are the ideal economical solution for treating noisy reverberant spaces. With a wide array of fabric selections, edge details, and finishes, fabric wrapped acoustic panels offer both aesthetic versatility and acoustic performance making them visually appealing as well as functional. Fabric wrapped acoustic panels can be used on both walls and ceilings in the form of flat panels, curved panels, clouds, and baffles. Today's modern echnology allows for fabric wrapped acoustic panels to be cut precisely into various shapes and sizes, allowing for unlimited creativity and design.
Product Parameters
Product Name
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Studio Sound Absorbing Panels
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Standard Size
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600*600mm, 1200*600mm
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Material
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Glass wool, polyester wool, melamine foam
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Standard Thickness
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25mm, 50mm
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Weight | About 2.4kgs/pcs | Density | 80kg/m3 or 96kg/m3 |
Frames
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Resin frame, MDF frame, Aluminium frame
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Acoustic Principle
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Porous absorption
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Flame retardant
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Non-fireproof (default), fireproof (available)
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Application
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These decorative sound absorbing panels are great for offices, schools, meeting rooms, music rooms, hotels, auditoriums, recording studios, broadcasting studios. These acoustic wall panels are perfect for any space where good speech privacy or speech intelligibility is important.
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Benefits
Economical and Versatile
Available in Custom Sizes, Shapes, and Edge Detail
Wide Array of Fabric Selections
Provides superior acoustic absorption
Fiberglass & Formaldehyde Free Core
57% Pre-Consumer Recycled Content
ASTM-E Class A Fire Rating
Why do I need fabric wrapped acoustic panels?
Large spaces such as conference rooms, gymnasiums, and multi-purpose rooms, tend to be made up of a lot of hard surfaces such as drywall, plaster, and wood floors. These surfaces are referred to as acoustically reflective, which means that sound will bounce off of them. Sound waves travel in 360 degrees and will continue to bounce back and forth until that energy is dissipated. These reflections build on each other raising the overall sound level of the space. If someone is speaking, the listener is hearing multiple instances of the same sound at slightly different times, making speech intelligible. This is known as acoustic reverberation, and the amount of time it takes for this sound energy to decay below audible levels is known as the reverberation time.