The essence of vibration passage
It is based on joint less assembly of ceramic tiles and vibration application to the prepared surfaces. Vibrating energy is fed using a special surface vibrator. Using this method the tiles achieve 100% contact with the foundation. It guarantees optimum putting speed for joint less ceramic surfaces. The tiles should be put in a commutative manner. It makes it possible to cover great surfaces in a very short time (about 200 m2 per day per working team).

Vibration passage
For making tile floors we use "vibration passage". This method has been developed by our German partners in the sixties of 19 th century. So the test, trials and mistakes phase is behind us. All technical problems concerned with the vibration method have been resolved by now. Industrial standards have been established all over the world and the method is widely accepted to be used in civil engineering. It without competition when it comes to be driven on by circulates stackers, trucks, cars and other heavy vehicles.
Our floors are oilproof. The clinker and sinter tiles we use are resistant to mechanical damage and to aggressive environment. We use tiles from worldwide renowned suppliers for most of the time.
Our floors in comparison to others are extraordinarily easy in cleaning. The floor can be isolated thermally and acoustically if required without any problem

Making floors in new objects
Vibration method is designed particularly for new buildings with huge surfaces. The main advantage of the method is its speed. It lowers building costs and ensures a fast transition of the object's to its exploitation phase.
Our experienced working teams have the ability to put 500 m2 of the floor per day in big objects. The best choice for industrial high endurance floors are small tiles (15x15 and 20x20) 15-20 mm thick, which we propose and prefer.

To balance the stresses arisen in on the main surface and concrete background, we use dilatations. Dilatation laths we use from worldwide renowned suppliers guarantee proper stress absorption and protect the tiles edges from damage. High quality plastic dilatation laths are oilproof, chemicals-proof, cleanersproof and some acid-proof.
The floor achieves 60% of its end strength after 7 days after putting. Full load is allowed after 28 days.

Floor renovation
Besides the application of our methods in new buildings, the vibration method is really useful for floor renovation. Specially suited ceramic material and adequate concrete composition allow to perfectly renew old floors. Irrespective of old surfaces loosening there is a possibility to put new floor on the old one.

Quick passage
For renovation of objects, which cannot be gotten out of operation, we developed a new "quick passage" method. Thanks to special mortar composition the tiles are put on an old background. They can be loaded on the next day. All operations make minimal noise and dust raise. Quick passage allows to partially renew the object without getting it out of operation.

Renovation on the foil
For highly destroyed and cracked floors we offer renovation on the foil. In the first step old floor is covered with PE foil, which creates dilatation layer. On this layer concrete mortal and tiles are put down in the way described above. For proper floor operation 65 mm of concrete layer is required. Cracks in original floor, inspection pits and other weak points are secured with wire-mesh reinforcement.

Epoxide
Some kinds of objects like: ice factories, slaughterhouses, bakeries require floors which are perfectly tight. The same problem arise in all situations, where aggressive components are used in production process or for cleaning and desinfection. The best solution is epoxide.

We make floors which are resistant to all these impacts and still preserve its strength. Using epoxid technology developed by ourselves (used for concrete mortal and for joints) we achieve total tightness of floor surfaces. After epoxidation the floors comply with sanitary and technical requirements and despite intense exploitation remain unchanged over many years.