ZerroMax construction = the future of building constructions!
ZerroMax constructions are the right answer to climate change!
Steel frame construction consisting of cold-rolled steel profiles is a completely new, innovative and revolutionary way of construction. Lower investment costs, speed, manufacturing accuracy, lower own weight, exceptional resistance to weather influences, moisture, wind, earthquake, fire are the main advantages over classic or wooden construction. The constructions are suitable for both small and large complex projects, additions or upgrades.
Magnelis® steel. 90-year expected lifetime of the structure.
10 x Advantage.
100% in accordance with EU regulations!
Made according to the strictest EU standards.
Eurocodes 3 design.
Fire resistance (REI 12O).
Thermal insulation (EPB).
Sound insulation (WTCB).
Strength and resistance!
Extremely strong construction.
Large design ranges possible.
Anti-seismic, resistant to moisture, water, fire REI 120.
Withstands extreme weather conditions such as strong storms, winds.
Resistance to parasites, termites.
Architectural freedom.
No compromise on design, both inside and out.
Complete alignment of the building with the architect's plan.
The strength of steel provides great flexibility.
Suitable for both small and large complex projects.
Lower construction costs!
Lower construction and foundation costs.
Lower costs of assembly and production of the structure on the construction site
Reduction of management costs and fixed costs of the project
Faster income generation due to faster facility construction.
Sustainable construction.
100% recycling.
100% reusable.
Minimum energy consumption and minimum waste in the production phase.
Lower self-weight of the structure.
30% less foundation load.
The best ratio between strength and weight.
Very suitable for even worse floors, building upgrades.
No burden on the environment.
Off-site production leads to the least amount of construction waste on site.
Dry construction ensures a clean construction site.
No water consumption is required on the construction site.
Made in the factory.
Digitized and automated production process.
Millimeter accuracy.
Controlled production conditions.
No unforeseen delays (for example due to rain or cold).
No drying time.
Transportation.
Lower transport costs due to low own weight and volume.
A small number of assemblers.
Speed.
Fast and precise assembly on site.
No delays due to controlled working conditions.
Up to 60% faster construction time compared to traditional construction methods.
The best heat and sound insulation.
U-value: from 0.17 to 0.086 W/(m²K)
Zerro & Max facilities are designed to high standards, which enable minimal energy consumption for heating or cooling. By using innovative building structures, excellent thermal and sound insulation, our facilities achieve extremely low energy consumption, which leads to a pleasant living environment and reduces energy costs. Our mini-houses, which are intended for holiday use, reach 0.17 W/(m²K) , and our residential houses even 0.086 W/(m²K). With this approach to construction, the owners of our buildings can enjoy a comfortable stay, while at the same time contributing to preserving the environment and reducing the carbon footprint.
Maximum earthquake and fire safety.
Maximum earthquake and fire safety.
ZerroMax is a leading construction technology for the production of skeleton houses, holiday homes, garages and other structures from light metal profiles, as evidenced by the extreme testing of a 6-story building, the architectural structure of which was designed to imitate a multi-apartment building.
The building of the ZerroMax construction is thus several times lighter compared to a concrete or wooden one and therefore has significantly less mass to create negative forces that affect the collapse of buildings during destructive earthquakes.
During the testing of the building made of light metal profiles, the building was exposed to a series of earthquakes of increasing intensity. The simulations included motion recorded during the 1994 magnitude 6.7 Northridge earthquake; the 1992 7.2 Cape Mendocino earthquake – both in California; and the 8.8 magnitude earthquake that occurred in Maule, Chile in 2010.
It is the largest structure of its kind that has been tested on a shaking table to date. The technology of using light metal profiles enables the testing of objects in laboratory conditions, mainly due to the fact that the mass of the object is several times smaller compared to concrete or wood.