Akoestifloor MXR
Dry floating floor for fast installation
Acoustically decoupled profile system
Suitable for wooden and concrete floors
Akoestifloor MXR is a floating floor system designed for timber and concrete subfloors. It combines acoustically decoupled profiles with a resilient core of Akoestifoam, a high-density foam that effectively reduces impact and airborne noise while remaining stable under load. Integrated cavity insulation and double top layers provide effective damping. MXR is ideal for restaurants, music venues, cinemas, theatres and technical spaces where high acoustic performance is required.
The profiles feature an Akoestifoam core with an 18 mm OSB top layer. Cavity insulation is achieved using Akoestiwol HR or PE and is finished with two layers of Akoestipanel O18 or S18. Edge finishing is done using foam strips and the Akoestiplex MX50 edge profile. The system delivers combined impact and airborne sound insulation and also contributes to thermal performance.
Akoestifloor MXR can be installed on existing timber or concrete floors. The system supports a wide range of floor finishes and offers straightforward installation thanks to its dry floating floor design and decoupled profiles. It is suitable for both refurbishment and new-build projects that require maximum sound insulation.
Downloads and specifications
Answers to common questions
Selection depends on factors such as room function, noise source, required level of sound insulation or absorption, and fire safety requirements. Merford specialists can provide advice based on measurements, acoustic calculations and specific project requirements.
Yes, the substrate must be flat, dry and sufficiently stable for correct installation. Irregularities or unstable surfaces can affect both performance and installation quality.
The panels are modular and can be mounted on both walls and ceilings. Installation can be done directly onto the structure or via a frame. Thanks to their lightweight design and modular system, installation is fast and requires no major structural modifications.
