Grooved Wood Panels for Data Centers

Timberix™ grooved timber panels provide effective noise diffusion for data centers, reducing sound from servers and HVAC systems while integrating seamlessly with cooling systems. Designed to meet fire safety and environmental standards, these acoustic panels enhance both acoustic performance and airflow efficiency. Their natural wood finish offers a refined aesthetic, making them a durable and functional choice for modern data centers.

A green palm leaf overlaps the bottom left corner of a Timberix Grooved Acoustic Panel with vertical slats and rectangular cutouts, set against a plain white background.

Products

Three rectangular Timberix Grooved Acoustic Panels with evenly spaced horizontal slats, each in a different color—dark brown, light brown, and beige—are displayed on a white background.

Grooved 12/4

A graph shows absorption coefficient versus 1/3 octave center frequency (Hz) for 25mm rockwool used with Timberix Grooved Acoustic Panels. The curve peaks above 1.0 between 315Hz and 1250Hz, then decreases as frequency approaches 5000Hz.

Timberix™ 12-4 panels reduce echoes by trapping sound and absorbing high and low frequencies.

A minimalist arrangement of Timberix Grooved Acoustic Panels in different wood shades, set on a white background, with two green fern leaves partially framing the composition from the corners.

Grooved 13/3

A graph shows absorption coefficient (α) vs frequency for ISO 354 with 25mm Rockwool (60kg/m³) behind Timberix Grooved Acoustic Panels. The coefficient rises, peaks between 315 and 1250 Hz, then gradually decreases toward 5000 Hz.

Timberix™ 13-3 panels reduce echoes by trapping sound and absorbing high and low frequencies.

A large green leaf is placed behind two Timberix Grooved Acoustic Panels, each featuring vertical grooves, all set against a plain light background.

Grooved 14/2

A line graph shows absorption coefficient versus frequency for 50mm rockwool (60kg/m³). Similar to Timberix Grooved Acoustic Panels, absorption rises with frequency, peaks, then tapers off slightly from 315 Hz to 5000 Hz.

Timberix™ 14-2 panels reduce echoes by trapping sound, with 50mm rockwool absorbing high and low frequencies.

A green palm leaf overlaps the bottom left corner of a Timberix Grooved Acoustic Panel with vertical slats and rectangular cutouts, set against a plain white background.

Grooved 28/4

A graph shows absorption coefficient versus frequency for 25mm rockwool (60kg/m³), a material often used behind Timberix Grooved Acoustic Panels. The absorption peaks at 0.9 near 1000 Hz, then declines as frequency approaches 5000 Hz.

Timberix™ 28-4 panels reduce echoes by trapping sound, with 50mm rockwool absorbing high and low frequencies.

Two Timberix Grooved Acoustic Panels in light wood with vertical black grooves are mounted on a white wall, slightly offset from each other. Green fern leaves partially frame the image from the corners.

Grooved 59/5

A line graph shows the absorption coefficient versus frequency for 25mm Rockwool, commonly used with Timberix Grooved Acoustic Panels. The absorption peaks around 1250 Hz and decreases at lower (315 Hz) and higher (5000 Hz) frequencies.

Timberix™ 59-5 panels reduce echoes by trapping sound and absorbing high and low frequencies.

A wooden knife holder with three diagonal slots for holding knives, featuring a light wood top and a darker wood base reminiscent of Timberix Grooved Acoustic Panels, placed on a plain white background.

V-Grooved

A graph shows absorption coefficient (alpha) from 0 to 1.0 versus 1/3 octave center frequency (Hz) from 315 to 5000 for Timberix Grooved Acoustic Panels with 50mm Rockwool. The shaded area peaks around 0.8 and gradually decreases at higher frequencies.

Timberix™ V-grooved panels reduce echoes by trapping sound and absorbing high and low frequencies.

Acoustic Performance & Sustainability

Sound Absorption Coefficient

A graph shows absorption coefficient versus frequency for 25mm rockwool (60kg/m³), a material often used behind Timberix Grooved Acoustic Panels. The absorption peaks at 0.9 near 1000 Hz, then declines as frequency approaches 5000 Hz.

Timberix™ is tested to ISO 354 Standards, which is the measurement of sound absorption in a reverberation room. The difference in the reverberation times is a measure of the amount of absorption in the room.

Eco-friendly

We prioritize sustainability and eco-friendliness in our design and manufacturing processes. Made from eco-friendly recyclable materials, these products reduce environmental impact by minimizing waste and promoting long-lasting performance. 

Projects

Our projects encompass a broad spectrum, spanning from new building constructions to renovations. These projects involve various spaces, such as offices, auditoriums, concert halls, cinemas, libraries, hotels, and public areas.
Grooved Systems
Data Centers

Frequently Asked Questions

The Data Center Grooved System consists of precision-grooved wood acoustic panels designed to diffuse and reduce noise from servers, cooling equipment, and HVAC systems, improving sound comfort in data centre environments while integrating smoothly with airflow systems.

Grooves and slats in the panel surface help trap and scatter sound waves, effectively breaking up echoes and balancing noise across the space; when paired with an acoustic backing like rock wool, this design enhances sound absorption across a broad frequency range, particularly in mid- and low-frequency bands.

Yes — the modules are engineered not only for sound control but also for seamless integration with cooling and ventilation systems, helping maintain efficient airflow paths and avoiding obstruction of critical infrastructure while contributing to acoustic comfort.

Absolutely — the panels are made using quality wood materials and eco-friendly composites, and are designed to meet fire safety and environmental standards for high-use technical spaces, offering a durable finish alongside acoustic performance.

In addition to acoustic functionality, these panels provide a refined natural wood finish that enhances the visual appeal of a data centre interior, making technical spaces look more polished and architecturally integrated rather than purely functional.

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