have the smallest carbon footprint - why?
Rib thickness only 0.5mm
The SOTA-DOMUS honeycomb-carpet
consists of ~ 99% „Nothing!“
SOTA-DOMUS Construction technology has by far the
it has the lowest material input.
the SOTA-DOMUS honeycomb carpet makes up the largest part of the volume.
the honeycomb carpet forms the high-strength backbone of the panels.
with an incredible load-bearing capacity of >200 tonnes m
, it forms a
secure "foundation" for the panels.
due to the high load-bearing capacity of the SOTA-DOMUS honeycomb carpet,
the face sheets can be kept thin - from 10mm depending on the application.
in a special process, the honeycombs are cast into the structure of the face sheets.
his greatly increases the load-bearing capacity of the panels, as it is not only a
bond, but also a mechanical connection.
= 7,5kg raw weight
that means per m
~ 7kg organic waste (e.g. wood chips) are used to make the
honeycomb and 0,5kg binding agent.
Mineral top layers
10mm = ~ 20kg raw weight/m
for the two top layers a total weight of ~ 40kg/m
10mm thick cover layer = 10.000mm
calculated bearing load = 20kg/mm
= 200.000kg = 200t/RM
Both wearing courses together have a calculated
load capacity of 400t/RM
Safety margin 50% = 200t / RM
Integrated insulation foam
SOTA-DOMUS high performance foam ~ 8kg
lambda value of λ: 0.02 [W/(m-K)].
What does this mean?
The completely finished
SOTA-DOMUS outer wall weighs
significantly less than 60 kg/m
The material requirements are
unrivalled low and partly from
renewable waste materials.
There is no technology with comparable
low material requirements!
In conventional construction, considerable work is necessary, such as subsequent
insulation, plastering, painting, etc, all of which is unnecessary with
The very considerable finishing work in conventional construction means a CO
that the SOTA-DOMUS panels do not have.
The compulsion to paint today's exterior walls on a regular basis is a very damaging
environmental factor, especially due to the constant pesticide contamination.
In summary, it can be said that there is no current building technique that has a
comparably low CO
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