Timberix

Timberix™ reduce echoes by trapping and diffracting sound in the grooves and perforation found on the surface. The sound that passes through the perforation is further absorbed by an acoustic substrate such as fibreglass or mineral wool, which reduces reverberation of the space.

A stylish wooden ceiling with intricate lantern-style hanging lights, creating a warm and inviting ambiance in a modern interior space.

Most Popular

Grooved

Grooved

Timberix™ Grooved acoustic panel features slats and grooves with a machined tongue-and-groove joint for seamless joinery.

A square perforated wooden panel with evenly spaced round holes, resting on a green leaf, representing natural-inspired acoustic design.

Perforated

Timberix™ Perforated panels feature a 2-layer perforation to trap and diffuse sound for enhanced acoustic performance.

A single dark wooden panel with subtle perforations, accompanied by a white flower, symbolizing minimalist aesthetics.

Microperforated

Timberix™ Microperforated are micro-holes only perceptible at short eye distance (+/- 250 000 holes/m2) and laminated on a 15mm thick MDF board.

Microperforated

Material: E1 MDF, FR MDF, MgO Composite Board
Structure: Base Material, Finishing & Fleece
Finishing: Melamine, Veneer, Laminate, Paint
Dimension: 2400mm x 128mm or 192mm
Standard Thickness: 12mm, 15mm, 18mm
Standard Pattern: 3.6-1.8-0.5, 8-8-1, etc.

Grooved

Material: E1 MDF, FR MDF, MgO Composite Board
Structure: Base Material, Finishing & Fleece
Finishing: Melamine, Veneer, Laminate, Paint
Dimension: 2400mm x 128mm or 192mm
Standard Thickness: 12mm, 15mm, 18mm
Standard Pattern: 13-3, 14-2, 28/4, 59/5

Perforated

Material: E1 MDF, FR MDF, MgO Composite Board
Structure: Base Material, Finishing & Fleece
Finishing: Melamine, Veneer, Laminate, Paint
Dimension: 2400mm x 128mm or 192mm
Standard Thickness: 12mm, 15mm, 18mm
Standard Pattern: 16-16-6, 32-32-6, etc.

Grooved

Material: E1 MDF, FR MDF, MgO Composite Board
Structure: Base Material, Finishing & Fleece
Finishing: Melamine, Veneer, Laminate, Paint
Dimension: 2400mm x 128mm or 192mm
Standard Thickness: 12mm, 15mm, 18mm
Standard Pattern: 13-3, 14-2, 28/4, 59/5

Grooved

Grooved 12/4

Timberix Grooved 28:4 SAC

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

Grooved 13/3

A graph showing the absorption coefficient across frequencies, labeled "ISO 354 with 25mm Rockwool (80kg/m³)".

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

Grooved 14/2

Graph showing sound absorption coefficient with a range from 0 to 1.2 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve peaks above 0.8 at around 1000 Hz.

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

Grooved 28/4

Timberix Grooved 28:4 SAC

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

Grooved 59/5

Graph showing sound absorption coefficient with a range from 0 to 1.1 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve is relatively steady, with a peak around 1000 Hz.

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

V-Grooved

A line graph of the absorption coefficient (α) versus frequency (Hz) for ISO 354 with 50mm Rockwool (80kg/m³), with values reaching a peak around 0.8 at 1250 Hz and remaining relatively steady between 315 Hz and 5000 Hz.

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

Perforated

Perforated E 16/16/6

A graph showing the absorption coefficient across frequencies, labeled "ISO 354 with 25mm Rockwool (80kg/m³)".

Timberix™ E 16/16/6 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated E 16/16/8

A graph displaying the absorption coefficient across frequencies from ISO 354 using 25mm Rockwool (60kg/m³), peaking around 315 Hz.

Timberix™ E 16/16/8 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated E 16/16/10

A graph showing the absorption coefficient against 1/3 octave center frequency with data from ISO 354 using 25mm Rockwool (60kg/m³). The graph peaks around 315 Hz and gradually declines.

Timberix™ E 16/16/10 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated E 32/32/6

A graph showing the absorption coefficient across frequencies, labeled "ISO 354 with 25mm Rockwool (80kg/m³)".

Timberix™ E 32/32/6 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated E 32/32/8

A graph showing the absorption coefficient across frequencies, labeled "ISO 354 with 25mm Rockwool (80kg/m³)".

Timberix™ E 32/32/8 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated V 16/16/6

Graph showing sound absorption coefficient with a range from 0 to 1.1 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve is steady, peaking near 1000 Hz.

Timberix™ V 16/16/6 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated V 16/16/8

A graph displaying the absorption coefficient across frequencies from ISO 354 using 25mm Rockwool (60kg/m³), peaking around 315 Hz.

Timberix™ V 16/16/8 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated V 32/32/6

Graph showing sound absorption coefficient with a range from 0 to 1.0 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve rises at 1000 Hz and dips towards 5000 Hz.

Timberix™ V 32/32/6 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Perforated V 32/32/8

Graph showing sound absorption coefficient with a range from 0 to 1.1 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve peaks near 1000 Hz.

Timberix™ V 32/32/8 panels trap sound with a 2-layer perforation, while an acoustic substrate reduces reverberation.

Microgrooved

Microgrooved 5/3

Graph showing sound absorption coefficient with a range from 0 to 1.1 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve peaks just over 1.0 near 1000 Hz.

Timberix™ 5-3 Microgrooved panels use smaller grooves to reduce echoes and absorb high-frequency sound.

Microgrooved 8/2

Graph showing sound absorption coefficient with a range from 0 to 1.0 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve rises at 1000 Hz and dips towards 5000 Hz.

Timberix™ 8-2 Microgrooved panels use smaller grooves to reduce echoes and absorb high-frequency sound.

Microgrooved 8/3

Graph showing sound absorption coefficient with a range from 0 to 1.0 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve peaks near 1000 Hz.

Timberix™ 8-3 Microgrooved panels use small grooves to reduce echoes and absorb high frequencies.

Microgrooved 9/2

A line graph showing the absorption coefficient (α) versus the frequency (Hz) for ISO 354 with 25mm Rockwool (80kg/m³), peaking around 315-1250 Hz with a maximum value of about 1.1 and tapering off toward higher frequencies.

Timberix™ 9-2 Microgrooved panels use smaller grooves to reduce echoes and absorb high-frequency sound.

Milliperforated

Milliperforated E 4/4/1

A graph showing the absorption coefficient (α) versus frequency in 1/3 octave bands. The graph is for a material tested with ISO 354 standards, with 25mm of Rockwool (60kg/m³), peaking at about 1.1 around the 1250 Hz range and tapering down towards higher frequencies up to 5000 Hz.

Timberix™ E 4/4/1 Milliperforated panels trap sound with a 2-layer perforation and an acoustic substrate to reduce reverberation.

Milliperforated E 8/8/1

A graph showing the absorption coefficient against 1/3 octave center frequency from EN ISO 354 using a 25mm substrate (60kg/m³). The curve shows a rise and gradual decline.

Timberix™ E 8/8/1 Milliperforated panels trap sound with a 2-layer perforation and an acoustic substrate to reduce reverberation.

Milliperforated E 8/8/2

A graph showing the absorption coefficient across frequencies, labeled "ISO 354 with 25mm Rockwool (80kg/m³)".

Timberix™ E 8/8/2 Milliperforated panels trap sound with a 2-layer perforation and an acoustic substrate to reduce reverberation.

Milliperforated E 8/8/3

A graph showing the absorption coefficient across frequencies, labeled "ISO 354 with 25mm Rockwool (80kg/m³)".

Timberix™ E 8/8/3 Milliperforated panels trap sound with a 2-layer perforation and an acoustic substrate to reduce reverberation.

Milliperforated E 16/16/3

A graph showing the absorption coefficient across frequencies, labeled "ISO 354 with 25mm Rockwool (80kg/m³)".

Timberix™ E 16/16/3 Milliperforated panels trap sound with a 2-layer perforation and an acoustic substrate to reduce reverberation.

Milliperforated V 4/4/1

A graph showing the absorption coefficient (α) versus frequency in 1/3 octave bands. The graph is for a material tested with ISO 354 standards, with 50mm of Rockwool (60kg/m³), reaching a peak absorption of around 0.8 in the frequency range of 315 Hz to 5000 Hz.

Timberix™ V 4/4/1 Milliperforated panels trap sound with a 2-layer perforation and 50mm insulation to reduce reverberation.

Milliperforated V 8/8/1

A line graph showing the absorption coefficient (α) versus frequency (Hz) for ISO 354 with 25mm Rockwool (80kg/m³), peaking near 1.1 around 315 Hz and dropping off beyond 1250 Hz.

Timberix™ V 8/8/1 Milliperforated panels trap sound with a 2-layer perforation and an acoustic substrate to reduce reverberation.

Milliperforated V 8/8/3

A line graph of the absorption coefficient (α) versus frequency (Hz) for ISO 354 with 50mm Rockwool (80kg/m³), peaking at around 0.7 between 315-1250 Hz and slightly dropping off at higher frequencies.

Timberix™ V 8/8/3 Milliperforated panels trap sound with a 2-layer perforation and an acoustic substrate to reduce reverberation.

Microperforated

Microperforated E 2/2/0.5

A graph showing the absorption coefficient across frequencies, labeled "EN ISO 354 with 25mm Substrate (80kg/m³)".

Timberix™ E 2/2/0.5 Microperforated panels trap sound with a 2-layer perforation and reduce reverberation using an acoustic substrate.

Microperforated E 3/3/0.5

A graph showing the absorption coefficient across frequencies, labeled "EN ISO 354 with 25mm Substrate (80kg/m³)".

Timberix™ E 3/3/0.5 Microperforated panels trap sound with a 2-layer perforation and reduce reverberation using an acoustic substrate.

Microperforated E 8/8/0.5

A graph displaying the absorption coefficient as a function of 1/3 octave center frequency, showing the results from ISO 354 with 25mm Rockwool (60kg/m³).

Timberix™ E 8/8/0.5 Microperforated panels trap sound with a 2-layer perforation and reduce reverberation using an acoustic substrate.

Microperforated V 1.8/1.8/0.5

Graph showing sound absorption coefficient with a range from 0 to 1.2 across 1/3 Octave Center Frequency (Hz) between 315 Hz and 5000 Hz. The curve peaks at around 1.0 near 1000 Hz.

Timberix™ V 1.8/1.8/0.5 Microperforated panels trap sound with a 2-layer perforation and reduce reverberation using an acoustic substrate.

Microperforated V 3.6/1.8/0.5

A graph showing the absorption coefficient (α) versus frequency in 1/3 octave bands. The graph is for a material tested with ISO 354 standards, with 50mm of Rockwool (60kg/m³), reaching a peak absorption of around 0.8 in the frequency range of 315 Hz to 5000 Hz.

Timberix™ V 3.6/1.8/0.5 Microperforated panels trap sound with a 2-layer perforation and reduce reverberation using an acoustic substrate.

Microperforated V 4/4/0.5

A line graph of the absorption coefficient (α) versus frequency (Hz) for ISO 354 with 25mm Rockwool (80kg/m³), peaking at 315 Hz with an absorption value close to 0.9, then decreasing steadily toward 5000 Hz.

Timberix™ V 4/4/0.5 Microperforated panels trap sound with a 2-layer perforation and reduce reverberation using an acoustic substrate.

Others

Ribbed

A line graph of the absorption coefficient (α) versus frequency (Hz) for ISO 354 with 25mm Rockwool (80kg/m³), peaking at 315 Hz with a maximum absorption value around 1.0 and tapering off toward 5000 Hz.

Timberix™ Wooden Ribbed panels trap sound in slots, with an acoustic substrate reducing reverberation for high and low frequencies.

Slotted

Timberix™ Wooden Slotted panels trap sound in surface slots, with an acoustic substrate reducing high and low frequency reverberation.

Baffle

A graph displaying the absorption coefficient as a function of 1/3 octave center frequency, showing the results from ISO 354 with 50mm Rockwool (60kg/m³).

Timberix™ Baffle 25 reduces echoes by trapping sound in baffle gaps, with an acoustic substrate absorbing high and low frequency reverberation.

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.
Wakuda
Marina Bay Sands, Singapore
Kyriacou Architects
Discover project
Exeo Global
Paya Lebar Quarter 3, Singapore
Merge O+R
Discover project
Pal Mall Wine Club
Shaw Centret, Singapore
Rockett Studio
Discover project
Boardroom
Shiseido Headquarters, Singapore
DP Architects
Discover project

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