Roofing panel designed to reproduced the shape of clay tiles consisting of a multi-layer profiled metal weather liner combined with a bituminous membrane and an exposed polyester mat for high noise-abatement and anti-drum performance and effective condensation control function; an insulation layer of EPS additivated with graphite and a lightly fluted internal liner of metal sheet.
The EPS insulation layer is moulded to form an increased air chamber with a cross section of 350cm2/lin.m. that will ensure a highly effective venting function, possibly the most effective among insulated roofing panels.
TEGOSTIL SOUND MACROVENTILATO is most suitable for cost-effective commercial and industrial roofing applications
15% nominal gradient subject to local building regulations
| Parámetros | Dimensiones | Tolerancias dimensionales |
| Width | 1060 mm - cover width 1000 mm | ± 5 mm |
| Length * | from 1150 to 7100 mm | L ≤ 3000 mm ± 5 mm L > 3000 mm ± 10 mm |
| Overall Height | 155-175-195 mm | ± 2 mm |
| Profile height | 29 mm | ± 2 mm |
| Profile pace | 350 mm | ± 5 mm |
| Profile depth | 13 mm | ± 2 mm |
| Deviation of perpendicularity | - | 0,60% |
| Average cross section area of the ventilation channels | 350 cm²/m per linear meter of cross section | - |
* for other lengths that are not multiples of the tile pattern, please contact our Technical Dept.
| Test | Valor | Norma de referencia |
| Noise abatement value | Rw = 28 dB | UNI EN ISO 10140-2 UNI EN ISO 717-1 |
| Sound generated by rainfall | Lɪᴀ = 53 dB (A) | UNI EN ISO 10140-1 UNI EN ISO 10140-5 |
| Reaction to Fire | class E |
| Resistance to water vapour | μ = 30-70 |
| Compressive strength at 10% crush rate CS (10) | ≥ 100 Kpa |
| Material | Espesor nominal extradós (mm) |
label_SpessoreIsolanteEPSGrafite (mm) |
Transmitancia térmica λD = 0.030 W/mK (U = W/m²K) |
Peso panel Tegostil Sound Macroventilato with 0,4mm internal metal liner (kg/m²) |
Carga útil uniforme comprendido peso propio * (kg/m²) |
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| Intereje (m) |
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| 0,70 | 1,05 | 1,40 | |||||
| Aluminum | 0,7 | 90/155 | 0,32 | 10,39 | 1020 | 400 | 160 |
| Aluminum | 0,7 | 110/175 | 0,27 | 10,79 | 1025 | 405 | 165 |
| Aluminum | 0,7 | 130/195 | 0,23 | 11,19 | 1030 | 410 | 170 |
| Coated steel Aluzinc Stainless steel |
0,5 | 90/155 | 0,32 | 12,92 | 1100 | 545 | 260 |
| Coated steel Aluzinc Stainless steel |
0,5 | 110/175 | 0,27 | 13,32 | 1105 | 550 | 265 |
| Coated steel Aluzinc Stainless steel |
0,5 | 130/195 | 0,23 | 13,72 | 1110 | 555 | 270 |
| Coated steel Aluzinc Stainless steel |
0,6 | 90/155 | 0,32 | 13,84 | 1120 | 555 | 270 |
| Coated steel Aluzinc Stainless steel |
0,6 | 110/175 | 0,27 | 14,24 | 1125 | 560 | 275 |
| Coated steel Aluzinc Stainless steel |
0,6 | 130/195 | 0,23 | 14,64 | 1130 | 565 | 280 |
| Copper | 0,6 | 90/155 | 0,32 | 14,54 | 884 | 461 | 165 |
| Copper | 0,6 | 110/175 | 0,27 | 14,94 | 890 | 465 | 170 |
| Copper | 0,6 | 130/195 | 0,23 | 15,34 | 895 | 470 | 175 |
N.B. Listed values are indicative and as tested in our laboratory. Static calculations are the responsibility of the Designer / Main Contractor.
* Calculated with a deflection value ≤ 1/200 L
