Milliperforated

Our Milliperforated wood panels are made with a 2-layer perforation structure, which traps and diffracts sound in the holes. The sound that passes through the perforation is further absorbed by acoustic substrate such as fiberglass or mineral wool, which reduces reverberation in the room.

Timberix™ Milliperforated acoustic timber panels are 0.5mm micro-holes only perceptible at short eye distance (+/- 250 000 holes/m2) and laminated on a 15mm thick perforated MDF eco-friendly board. 

Products

Milliperforated E 4/4/1

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

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

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

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

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

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

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

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

Specifications for Timberix™ Milliperforated

Our wooden milliperforated acoustic panels are made up of a series of perforations. Each timber panel has a machined groove joint for either a seamless or gap joinery. The first alphabet refers to the hole arrangement (E is linear and V is staggered), the second pair of numbers refer to the distance between the two holes, and the last number refers to the hole diameter. The base material can be made of MDF, fire-resistant MDF, eco-friendly MDF, black MDF, 3-layer composite, 5-layer composite or OSB.

Specifications

  1. Structure: Basic Material, Finishing & Fleece
  2. Material: E1 MDF, FR MDF, MgO Composite, etc.
  3. Front Surface: Melamine, Wood Veneer, Paint, etc.
  4. Standard Dimension: 600mm x 600mm, 600mm x 1200mm, 1200mm x 2400mm
  5. Standard Thickness: 15mm
  6. Distances of Two Holes: 4/4mm, 8/8mm, 16/16mm and 32/32mm
  7. Diameter of Holes: 1, 2, 3 mm, etc.
  8. Standard Patterns: E4/4/1, E8/8/1, E 8/8/2, E8/8/3, V4/4/1, V8/8/1, V8/8/3
  9. Hole Arrangement: Linear (E), Staggered (V)
  10. Eco-Friendly Test: EN 13986 = E1
  11. Fire-Rated Test: EN 13501-1 = Class B s1, d0

Preparation & Installation of Milliperforated Wood Panels

Preparation

  1. Place of installation must be dry, with temperature no less than 10 degrees Celsius.
  2. Humidity level should be kept between 40% to 60%.
  3. Timberix™ panels must be placed on site for at least 48 hours in order to adapt to environmental conditions.

Installation

  1. Mark out placement of Timberix™ panels, and take into account M&E positions.
  2. Decide on type of installation system to use.
  3. Install acoustic substrate of choice.
  4. For wood laminate and veneer finishes, ensure that panels are installed with matching grain directions.
  5. Clean surface of the Timberix™ panels with compressed air and gently wipe with dry cloth.

Installation with Gap

1. Install the alumnium keels

2. Insert the perforated boards

3. Slot in the spline

Section Detail with Gap

Installation without Gap

1. Install the alumnium keels

2. Insert the perforated boards

3. Ensure no gaps

Section Detail with No Gap

How Timberix™ Perforated Solves Common Acoustical Challenges

Designing an ideal acoustic environment in spaces such as auditoriums, concert halls, and lecture theatres comes with distinct challenges. Balancing sound clarity with interior design demands acoustic panels that seamlessly combine functionality and style. This is where our perforated wood panels prove invaluable, effectively addressing several common acoustic challenges.

Echo and Noise Control

In spaces where sound clarity is critical, uncontrolled echoes and background noise can disrupt productivity and enjoyment. This is where Timberix™’s perforated wood panels can be beneficial.

Our perforated wooden wall and ceiling panels are crafted with perforations designed to trap sound waves and make them dissipate in the holes. They can help with speech clarity in meeting rooms or even provide an immersive sound experience in entertainment venues like cinemas or concert halls.

Functional Elegance

When selecting a wooden panel for your project, it’s crucial to choose one that delivers quality, performance, and exceptional design. And with Timberix™’s products, you get the perfect balance of all three. Our perforated wood panels are engineered to improve the acoustics and overall visual appeal of any space. With our perforated timber acoustic panels, you never have to compromise. Our panels seamlessly integrate outstanding performance with stunning design, making them the ideal choice for any project.

Warranty Guaranteed

Venues with heavy foot traffic, such as auditoriums and concert halls, demand materials that excel acoustically while enduring constant use and routine maintenance. Timberix™ perforated wood panels meet these requirements by being constructed from durable materials like fire-resistant MDF, eco-friendly composites, and multi-layer options. This guarantees the panels retain their strength and visual appeal over time.

Frequently Asked Questions

Perforated wood panels are specially designed wooden boards featuring a series of precisely spaced holes or slits arranged in various patterns. These panels serve dual purposes: they improve the visual appeal of interiors and acoustic performance of a space.

These acoustic panels manage sound waves by using their carefully designed holes or perforations to absorb and diffuse unwanted noise. When sound waves hit the perforated wood panel’s surface, the holes allow them to penetrate into our acoustic substrate to further absorb them. This reduces sound reflections and reverberations, creating a more balanced and controlled acoustic environment.

This absorption mechanism is also used in microperforated wood panels, which feature even smaller holes to target a broader range of sound frequencies for optimal acoustic performance.

Perforated plywood is a type of engineered wood panel that features a series of holes or slots systematically arranged for design and acoustics purposes. Its perforations can allow sound waves to pass through and get absorbed by the underlying material, effectively reducing noise and reverberation. Available in various thicknesses, hole sizes, and patterns, perforated plywood can be tailored to suit different applications and design requirements.

In modern interior design and architecture, wood is perforated to create a more sustainable alternative for acoustic panels made of polyurethane. The perforations in wooden acoustic panels function as resonators, absorbing and diffusing sound waves to minimize unwanted noise and control reverberation. This makes these panels ideal for spaces where acoustic comfort is crucial, such as offices, auditoriums, and conference rooms, contributing to improved speech intelligibility and reduced noise distractions.

Furthermore, the perforations themselves create visually engaging patterns, adding a contemporary touch to walls, ceilings, and furniture. 

While perforation is a highly effective method for achieving acoustic control in wood, grooved paneling also offers sound absorption properties and presents an alternative design option.

The thickness of our perforated wood panel typically ranges between 12mm to 18mm, depending on the design, material, and specific acoustic requirements. Panels designed for higher sound absorption may incorporate additional thickness or layers, such as acoustic substrates or insulation backings.

Customizations in thickness can also be made to suit specific project needs, ensuring compatibility with interior design requirements and performance goals.