Gymnasiums & sports flooring solutions acoustics | free weight areas | functional training | SAQ

everroll® multitile 27mm everroll® multitile 43mm Taking the Strain

everroll® multitile 27mm and everroll® multitile 43mm offer high levels of shock absorption – protecting the subfloor from damage while providing gym members with a cushioning and comfortable training area.

everroll® Multitile

Now known as everoll multitile 27mm

As a multi-purpose tile, everroll Multitile (everoll multitile 27mm) is easy to install and is laid with a V-grove joint finish. Aesthetically, everroll Multitile (everoll multitile 27mm) offers a superior appearance as the surface finish is non-reflective – maintaining consistency of colour in all lighting conditions.

Material Composition

PUR bonded and moulded rubber tile with a 4mm everroll® compact top layer.

Thickness

27mm (23mm black base layer + 4mm everroll compact top layer).

Dimension of the Tile

1,000 x 500mm. everroll Multitile (everoll multitile 27mm) – the multipurpose tile product, easy to install and perfectly suitable for weight rooms and similar areas where impact sound absorption is critical.

Force Reduction

Approximately 38.5%

NB: The Force Reduction rating is expressed as a relative percentage (bare concrete slab = 0% reduction) of the force that is not reflected when applied to a resilient surface. The higher the reduction rating, the more “forgiving” the surface.

everroll® multitile 43mm

everroll® multitile 43mm is an extra-robust tile for heavy-duty weight-training and weight-lifting and CrossFit training.

  • everroll weightlayer for gymnasium floors

Material Composition

PUR bonded granulate made from SBR rubber with an SBR and EPDM rubber wear layer.

Thickness

43mm

Dimension of the Tile

1,000mm x 500mm

Force Reduction

Approximately 44.2%

NB: The Force Reduction rating is expressed as a relative percentage (bare concrete slab = 0% reduction) of the force that is not reflected when applied to a resilient surface. The higher the reduction rating, the more “forgiving” the surface.

Acoustic Lagging for Technical Applications