Interlocking 100% Rubber Gym Floor Tiles
- Modular locking tiles
- 100% Rubber
- Reduce risk of injury
- Tile, Corner & Border Tiles
- 10mm Thick
- Modular locking tiles
- 100% Rubber
- Reduce risk of injury
- Tile, Corner & Border Tiles
- 10mm Thick
Description
The Gym mat from Seltek Warehouse is an extremely durable loose-lay interlocking floor tile for comfort and safety in gymnasiums and weight training areas.
The flat, textured surface allows for great stability whilst the bevel edges eliminate trip hazards.
Made from 100% rubber this heavy duty mat protects equipment from damage, absorbs shock and reduces noise levels.
Samples and Help
For the majority of our mats we are happy to send you up to 3 samples of our matting or for larger installations we can arrange to attend for a site survey, please contact us for further details.
Why Buy?
- Loose-lay interlocking floor tiles for noise and shock absorption in gymnasiums and weight training areas.
- Made from 100% rubber with bevelled edges and textured surface for safety.
- Modular format fits any area and can be easily relocated.
- Reduces the risk of impact related injuries.
- Suitable for most sports facilities, including ice arenas.
- Easy to clean and maintain.
- Overall height 10mm.
Features
Use – Dry Areas
Heavy Duty
Impact Resistant
Interlocking
Centre, Corner and Border Tiles
Wear Resistance (Level 3)
Anti-Fatigue Rating (Level 1)
Slip Resistance (Level 2)
Level Testing 1(Good) 2(Better) 3(Best)
Wear Resistance – ASTM D3844-92. An accelerated wear test whereby total loss of material weight is measured when subjected to 5000 cycles under an abrasive wheel.
Anti-Fatigue Rating – ASTM D3574. This is a simple deflection/compression test which gives a rating depending on the difference in height of a mat before and during the time a weight has been placed on it. The greater the difference, the better the antifatigue properties and overall product performance.
Slip Resistance – ASTM C1028-89 & DIN-E-51130, 51097. These tests measure the force required to cause slippage of a local load across the surface of the material. The coefficient of friction ratio is the force divided by the weight. The higher the performance icon, the greater the coefficient of friction ratio, thus the greater the
slip resistance of the mat.