|
|
TERMOSYSTEM RC
Waterproof thermal insulator
|
 |
TERMOSYSTEM RC® Waterproof insulating system
Waterproof insulating system suitable for both civil and industrial coverings. The system versatility allows to obtain various solutions with easy laying procedures. It is produced by coupling a waterproof bituminous membrane, either self-protected or non self-protected, with a choice of reinforcements displaying cold flexibility characteristics, and various types of different thickness insulating materials.
The TERMOSYSTEM RC® waterproofing thermal insulator is a composite system made up of a bituminous membrane coupled with an insulating panel in oriented fiber mineral wool, complying with EN 13162 standards and non combustible (Euroclass “E”).
 |
ADVANTAGES:
• Easy and versatile installation
• Large surfaces covered in little time, great value for money
• Maintenance/modification operations carried out on the surface |  |
 |
COMPOSITION:
TERMOSYSTEM RC®comes in the following versions:
• Rolls where the insulating material has staves 50 mm wide and 1 m high, with selvage on one side. The rolls are manufactured in a range of thickness up to 70 mm.
• Customized panels according to client’s requirements with overlapping selvage on both the short and long side.
• Precut panels for vaulted and shed style roofs, with overlapping selvage on both the short and long side.
1 Insulating material
2 Polymeric bitumen
3 Glass fiber reinforcement or T.N.T. - polye
4 Polymeric bitumen with ceramic coated granules |
Technical characteristics
|
Technical characteristics of the elastoplastomeric polymer bitumen compound before coupling
|
|
Description
|
U.M.
|
Smooth glass fiber
|
Smooth polyester
|
Polyester Ministry Authorization
|
Standard
|
|
Shape stability in response to heat |
°C |
110 |
110 |
110 |
EN 1110 |
|
Cold flexibility |
°C |
-5 |
-5 |
-5 |
UNI EN 1109 |
|
Ultimate tensile strength – in the longitudinal direction |
% |
/ |
≤-0,25 |
≤+0,25 |
EN 1107-A |
|
Ultimate tensile strength – in the transverse direction |
% |
/ |
≤-0,25 |
≤+0,25 |
EN 1107-A |
|
Impermeability to water |
KPa |
≥60 |
≥60 |
≥60 |
UNI EN 1928 |
|
Ultimate tensile strength – in the longitudinal direction |
N50/mm |
310 |
530 |
530 |
UNI EN 12311-1 |
|
Ultimate tensile strength – in the transverse direction |
N50/mm |
205 |
400 |
400 |
UNI EN 12311-1 |
|
Elongation at break - longitudinal |
% |
2 |
35 |
35 |
UNI EN 12311-1 |
|
Elongation at break - transversal |
% |
2 |
40 |
40 |
UNI EN 12311-1 |
|
Tear resistance - longitudinal |
N |
70 |
120 |
120 |
UNI EN 12310-1 |
|
Tear resistance - transversal |
N |
80 |
120 |
120 |
UNI EN 12310-1 |
|
Resistance to static punching |
Kg |
5 |
10 |
10 |
UNI EN 12730 |
Technical characteristics of RC mineral wool before coupling
|
|
Standard EN 13162
|
Description
|
U.M.
|
Value
|
Standard
|
|
|
Dimensional tolerance class |
T5 |
|
EN 823 |
|
|
Compressive strength at 10% deformation CS(10/Y) |
KPa |
≤70 |
EN 826 |
|
|
Through-the-thickness tensile strength |
KPa |
≤13 |
EN 1607 |
|
|
Linear thermal expansion coefficient |
|
2x10-6 °C-1 |
|
|
|
Residual shrinkage at 20 °C after 4 days at 70 °C |
|
Negligible |
|
|
|
Linear expansion at constant temperature (20 °C) and 65% to 80% relative humidity |
Longitudinal direction |
<1mm/m |
|
|
|
Linear expansion at constant temperature (20 °C) and 65% to 80% relative humidity |
Transverse direction |
<1mm/m |
|
|
|
Thickness variation in test tubes kept for 15 min at 100°C with 100% relative humidity, and then cooled at room temperature |
|
2% |
|
|
|
Water absorption by full immersion at 20 °C with sample saturation after 7 days and return to the initial weight in 48 h |
|
11:12% |
|
|
|
European class reaction to fire |
Class |
A1 |
|
|
|
Thermal conductivity λD |
w/mk |
0,040 |
|
|
|
|
|
