Rubbertech Step & Colour Plus
Rubbertech Step & Colour Plus incorporate Geotextile laminate on their lower surface permitting installation directly on to PVC waterproofing. Rubbertech Step Tile Color Plus has an R10 anti slip rating on its top surface.
Available in standard colours these tiles are ideal for home, balcony and swimming pool areas.
Let Your Creativity Run Free with coloured EPDM surfaces
Rubbertech Step Colour & Rubbertech Step Neon
Rubbertech Step Colour and Rubbertech Step Neon are made of the same high quality rubber as Rubbertech Step Tiles and also have a decorative surface layer of 10mm virgin rubber. A wide range of colours are available for selection and combination in accordance with your ideas and wishes, allowing you to create a personalised and unique ambiance on your balcony terrace.
The virgin EPDM rubber surface of Rubbertech Step Colour and Rubbertech Step Neon provides outstanding durability and UV resistance. It also has excellent chlorine resistance making it ideal for use in walkways and edge surfacing around swimming pools
Application Sector
Rubbertech Step Tile is a rubber granulate specially designed for protecting membranes on flat roofs subject to foot traffic e.g. balconies, terraces and surfaces.
| Material | Polyurethane-bonded recycled tyre granulate |
|---|---|
| Surface | Smooth with open pores |
| Lower side | Smooth with drainage channels |
| Lower side Step Plus | Geotextile 250g Fleece with drainage channels |
| Other data | Pre-drilled on two sides, plastic connector pins included |
| Step Tile | Red, Green, Black & Grey |
| Step Tile EPDM | Red, Green, Yellow, Blue, Grey, Beige |
| Step Tile EPDM Luminous | Red, Green, Yellow Blue, Orange |
| Dimensions L x W, T | 500 x 500 mm, 30mm thick (Length & width +/- 1.5%, thickness +/- 1mm) |
| Area Weight | Approx 20.8 kg/m², approx 5.2Kg/slab |
| Fire Resistance | B2 (DIN 4102 Part 1) |
| Chemical Resistance | Conditionally resistant to acids and bases |
| Cold Fracture Resistance | 24 h / - 40°C, no fracture |
| Water Flow Capacity | Hydraulic gradient i = 0,015 / 0,037 1 /(m.s) lengthwise / 0,022 1/(m.s) crosswise |