The advantages of the IsoteQ® intelligent building elements – compared to the conventional ones:

  • There is no need for hoists or loaders, not even when transporting.
  • There is no need for loaders when constructing either.
  • It is not a problem to move further the elements that have already been put down.
  • They do not hinder continuous work.
  • To change the place of 50 m² – that is 10 packages – of IsoteQ® building elements does not take more than 5 minutes for 1 person.
  • When constructing the walling, 1 package – that is 5 m² – of wall elements can be moved together by stregth of arm, and it only takes 1 person.
  • Workers will not get tired from the weight of bricks, so their efficiency is not lowered by these elements.
  • The phase of building the walls above 1.5 m does not require any hard physical work.
  • The elements can easily be lifted up to the scaffold and placed into the walling structure from there. Developing the walling from IsoteQ® elements is so fast and easy that it may even be done by only one person standing on a pair of steps, without being exposed to heavy physical burden. This obviously increases its efficacy.


The same applies to the lintels above doors and windows:

  • The IsoteQ®  lintel can be put in its place easily by only one person.
  • When puting in IsoteQ® ceiling blocks, mechanical aid is restricted to the concrete pump only.
  • There is no need to worry about beams and plenty of delicate fillings to be lifted up by the aid of a crane and put into place with hard and time-consuming work.
  • The IsoteQ® slab system can easily be cut to any size.


The interior can be shaped to ones liking:

  • The standard dimensions of the prefabricated, prestressed elements do not determine the interior spaces of the building.

  • In the case of a conventional multi-storey building, the problems caused by the weight of the conventional building elements arise – hoist, carrying the elements to their place -, but this time several metres high. Also, debris has to be brought down from the upper storeys: the refuse chute and the containers generate extra costs, too.

  • When constructing a building form IsoteQ® elements, there is NO building debris. (Provided that the building is designed to be built from IsoteQ®system.)

  • The IsoteQ® building system is entirely thermal bridge-free.

  • This cannot be said of conventional building elements – those can only be made thermal bridge-free with the aid of auxiliary materials – which also generates extra costs (wages and material costs).

  • Even the IsoteQ® Normal element is provided with better thermal insulation than a conventional wall.

  • Energy consumption required for the upkeep of the building is significantly lower.

  • IsoteQ® Passive Houses represent the most modern building technology of our age. This system is outstandingly energy-saving!

  • On IsoteQ® elements surface finishing with cladding materials is easier.

  • The srength of IsoteQ® walls stand every test, even earthquake motions.

  • IsoteQ® walls will never crack!

  • Sanitary engineering works can be carried out quickly, easily, free from dust and debris.

  • The system provides the thermal bridge-free building-in of doors and windows (the case is heat-insulated all around).

  • These works involve heavy costs (wages and material costs) in the case of a house built from conventional building elements.

The special advantages of THE BUILDING CONTRACTOR in 13 points:

  • 1. less people needed
  • 2. greater efficiency
  • 3. lower costs
  • 4. significantly longer execution season
  • 5. employees can be engaged longer
  • 6. lower per-unit costs of labourforce
  • 7. several executions can be takne on within the same period of time
  • 8. more certain time of delivery
  • 9. shorter time of realization
  • 10. trust in the building contructor grows
  • 11. the good reputation of the contractor grows (this creates a new market for them)
  • 12. costs are lowered further as there is only a minimal need for skilled labour
  • 13. to assemble the IsoteQ® elements one person is enough, who puts down the first row precisely. Fitting up the rest of the elements hardly needs any skills.

The basis of comparison:

 Our customers always ask first about  the comparison with the traditional building systems. But the comparison is not accurate until the systems do not provide the same performance technically. Of course, from this derive differences in price until we introduce for You with calculations these systems harmonized on the same level (with auxiliary thermal insulations).

Here we emphasize and compare chiefly the differences in the thermal technique. We could mention the limitless alternatives provided by our elements combined with load-bearing monolithic and reinforced concrete, but because of the acoustic comfort provided by the wall structure’s density, there is no need for  further demonstration. It performs in all aspects far above the so-called traditional wall structures.

But for us, only one aspect is enough to prove You our products’ appropriate heat-technical protection for Your home.

Technical  details for designers and investors:

layer λ d (m)
Dryvit thincast

5,2 cm IsoteQ® EPS thermal insulation 0,035 0,053
14,6  cm reinforces concrete wall structure (min. C16) 1,550 0,146
5,2 cm IsoteQ® EPS thermal insulation 0,035 0,052
1,5 cm plasterboard 0,870 0,015
surface finishing

k=1/(1/24+0,052/0,035+0,146/1,55+0,052/0,035+0,015/0,87+1/8) =
0.292 W/m²K

Total structure thickness: = 26,5 cm

Ytong masonry

layer λ d (m)
Nikecel NC D auxiliary thermal insulation

Ytong P2-0,5 0,04 0,0145
Ytong Hvh 8 innercast 0,13 0,010
inner finishing 0,75

k=1/(1/24+0,0145/0,04+0,375/0,13+0,01/0,75+1/8) = 0.292 W/m²K

Hőszigeteléssel kiegészített teljes szerkezeti vastagság: = 42,3 cm
Porotherm 38 N+F

layer λ d (m)
Dryvit thincast
Nikecel NC D auxiliary thermal insulation

0,040

0,051

Porotherm 38 N+F 0,194 0,380
Hvh 8 innercast 0,870 0,015
inner finishing

 –

k=1/(1/24+0,051/0,04+0,38/0,194+0,015/0,87+1/8) = 0.292 W/m²K

Total structure thickness complemented with thermal insulation: = 44,6 cm
Porotherm 44 N+F

layer λ d (m)
Dryvit thincast
Nikecel NC D auxiliary thermal insulation

0,04

0,026

Porotherm 38 N+F 0,17 0,440
Hvh 8 innercast 0,87 0,015
inner finishing

 –

k=1/(1/24+0,026/0,04+0,44/0,17+0,015/0,87+1/8) = 0.292 W/m²K

Total structure thickness complemented with thermal insulation = 48,1 cm

So, as you can see it, the Ytong masonry must be equipped with 1,4 cm thermal insulation, the Porotherm 38 cm masonry structure with 5.1 cm and the 44cm thick one with 2,6 cm auxiliary thermal insulation to receive the same thermal technical parameters as our product! After this should the building costs be examined.

Technical details for designers, contractors:

IsoteQ® PLUSZ

layer λ d (m)
Dryvit thincast

 –

10,2 cm IsoteQ® EPS thermal insulation 0,035 0,102
14,6 cm reinforces concrete wall structure (min. C16) 1,550 0,146
5,2 cm IsoteQ® EPS thermal insulation 0,035 0,052
1,5 cm plasterboard 0,870 0,015
Surface finishing

 –

k=1/(1/24+0,055/0,035+0,14/1,55+0,055/0,035+0,015/0,87+1/8) = 0.212 W/m²K
Total structure thickness = 31,5 cm

Ytong masonry

layer λ d (m)
Dryvit thincast

 –

Nikecel NC D auxiliary thermal insulation 0,04 0,066
Ytong P2-0,5 0,13 0,375
Ytong Hvh 8 innercast 0,75 0,010

inner finishing

k=1/(1/24+0,066/0,04+0,375/0,13+0,01/0,75+1/8) = 0.212 W/m²K

Total structure thickness complemented with thermal insulation = 45,1 cm

Porotherm 38 N+F

layer λ d (m)
Dryvit thincast

 –

Nikecel NC D auxiliary thermal insulation1 0,040 0,103
Porotherm 38 N+F 0,194 0,380
Hvh 8 innercast 0,870 0,015

inner finishing

k=1/(1/24+0,103/0,04+0,38/0,194+0,015/0,87+1/8) = 0.212 W/m²K

Total structure thickness complemented with thermal insulation = 49,8 cm

Porotherm 44 N+F

layer λ d (m)
Dryvit thincast

 –

Nikecel NC D auxiliary thermal insulation 0,04 0,077
Porotherm 38 N+F 0,17 0,440
Hvh 8 innercast 0,87 0,015

inner finishing

k=1/(1/24+0,077/0,04+0,44/0,17+0,015/0,87+1/8) = 0.212 W/m²K
Total structure thickness complemented with thermal insulation = 53,5 cm

So, as you can see it, the Ytong masonry must be equipped with 6,6 cm thermal insulation, the Porotherm 38 cm masonry structure with 10,3 cm and the 44cm thick one with 7,7 cm auxiliary thermal insulation to receive the same thermal technical parameters as our product! After this should the building costs be examined.

Comparison of the plans of houses built of Porotherm brick and of IsoteQ®  system:

IsoteQ® NORMAL

25 cm thick ISOTEQ® House Gross area:

151,10 m² Net area: 127,35 m²

38 cm thick Brickhouse Gross area:

151,10 m² Net area: 119,13 m²

We usually reply with 24 hours except for weekends. All emails are kept confidential and we do not span in any ways.

Thank you for contacting us :)

Enter a Name

Enter a valid Email

Message cannot be empty