- For wall & floor tiles with minimum joint.
- Quality base material, without impurities or imperfections.
The 1.5 mm tile spacers are recommended for fitting wall and floor ceramic tiles with minimal joints.
RUBI manufactures 1.5mm tile spacers with a quality base material, meaning that they are completely free from impurities and imperfections.
RUBI tile spacers, “T” and wedges are undoubtedly a truly indispensable range for obtaining a perfect finish in any ceramic tile range installation work.
The solid structure of the 1.5 mm tile spacers has been designed to provide greater resistance to bending and smashing. Owing to these features, the 1.5 mm tile spacers are highly recommended for large format ceramic tile fitting jobs.
Professionals worldwide use the RUBI tile spacers, “T” and wedges because they want the best finish for all of their ceramic tile installation work.
Professional fitters are well aware of how important it is to use high quality breakers, since the finish of their work can be significantly damaged by imperfections or irregularities.
RUBI tile spacers, “T” and wedges are noted for the uniformity of their products, the homogeneity of measurements and the absence of burrs and other small flaws. These features allow professionals who opt for RUBI tile spacers, “T” and wedges to obtain an outstanding finish and with complete accuracy.
At RUBI, we not only care about designing, manufacturing and distributing the best tools for cutting and fixing ceramic tiles. We also think about the complements and accessories that every professional ceramic tile fixer may need.
RUBI is now present in over 120 countries, thanks to our network of sales offices, subsidiaries and authorized dealers. For this reason we make it easy for users around the world to find our tools and spare parts.
References and models for Tile spacers for 1.5 mm joints
- Ref. - 2031
- EAN-13 - 8413797020311
- Units per box - 1
- Ref. - 2912
- EAN-13 - 8413797029123
- Units per box - 10
Tile Leveling System Calculator*Approximate calculation without considering perimeter or intermediate partitions of the surface to tile.