The material properties of GRC depend on the production method. For the fabrication of different products Fydro masters several production techniques. The DinamiC•CCC panels are made by using the patented automated continuous process technique.

With this process it is possible to combine the patented matrix with a special reinforcement composition. Herewith a mixture of fibres is applied consisting of chopped fibres, continuous endless “rovings” and fibre mesh. This so called “cocktail-technology” is especially developed for the DinamiC•CCC products.


CE Markeringen 1 CE Markeringen 2

Support systems

DinamiC•CCC facade cladding elements can be fixed to the facade with different support systems. Generally aluminium systems are used which are multi-functional. The GRC-panels can be fixed with concealed anchors, rivets or structural adhesive.

Concealed anchors

Structural adhesive


The DinamiC•CCC cladding should always be carried out as a rear ventilated facade. The cladding itself takes over the protection of the building and is simultaneously an architectural design element. In contrast to traditional thermal insulating composite systems rear ventilated facades have a series of advantages. For that reason rear ventilated facades have been used for more than a hundred years in many Central-European countries.

  • Fire protection
  • Sound insulation
  • Condensation protection
  • Driving rain protection
  • Durability
  • Economic efficiency


Technical Data

Maximum dimension

1.250 x 3.600 mm


10, 15, 20 and 25 mm (other thicknesses on demand)


Level I according to DIN EN 12467, paragraph 5.3


A1 (according to DIN 4109)


2.000 – 2.200 kg/m3


20 – 22 kg/m2 (10 mm)


30 – 33 kg/m2 (15 mm)


40 – 44 kg/m2 (20 mm)


50 – 55 kg/m2 (25 mm)

Compression-strength (fc)

≥ 40 MPa (according to DIN 1045)

Bending-strength (MOR)

≥ 12 MPa (according to EN 1170-4)

Limit of proportionality (LOP)

≥ 7,0 MPa (according to EN 1170-5)

Module of elasticity (E)

15,0 – 20,0 kN/mm2 (according to EN 1170-5)

Ultimate strain at MOR (eu)

1,0 – 1,5%

Thermal expansion coefficient (aT)

1,0 x 10-5 K-1

Shrinkage value (ecs)

1,5 – 2,0 mm/m

Swelling value (k)

0,5 – 1,0 mm/m



Water-vapour-diffusion (m)


Thermal stability

≤ 450 °C


very good (according to Gutachten PG-041-98)


no leaching of environment- and


health-damaging substances


(according to MPA Stuttgart report V/904 124 000)

Chemical resistance

as concrete