Anti-seismic(?) building = expensive, complicated, elitist, until today.
Vs.
Gravity = anti-seismic(!), economical, simple, affordable, as of today.
In this section, we illustrate the major practical applications of Gravity.
We are looking for companies to exploit the potential of its patent, develop it and become leaders in the anti-seismic construction sector
If, on the other hand, you are interested in the principles of its functioning, click below;
we look for institutions to deepen their dynamics and enter the history of earthquake engineering by writing the new rules.
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Gravity and concrete or conglomerate bricks
Concrete and cement
They are components that represent the basis of all construction works. Concrete is a well-known and the most widespread material in the construction sector, often referred to by the abbreviation CLS.
It is a compound material obtained by mixing mainly 3 types of raw materials: a binder, inert materials and water. To these three main ingredients, as needed, you can also add additives, or substances necessary to obtain specific chemical and physical properties of the final product.
Concrete
it is used almost in all construction sectors, from residential to industrial, up to the infrastructures. It has strong compressive strength, while it is weaker in traction. For this reason, it is reinforced with steel elements, thus acquiring the name of reinforced concrete.
Gravity, light cements and conglomerates.
Also in this sector Gravity can have enormous spaces for exploitation,
all still to be studied and exploited.
In fact, this technique does not need fresh water to be used in situ,
as it can be entirely prepared elsewhere and only assembled on site.
This in many situations (deserts, dangerous areas or other)
can present great advantages, all to be exploited.