PAROC Pro Lamella Mat AluCoat

PAROC Pro Lamella Mat AluCoat
PAROC Pro Lamella Mat AluCoat is a non-combustible stone wool insulation for thermal and condensation insulation of ventilation ducts and equipment. It has a reinforced aluminium foil facing.

Datasheet

 
Updated 28 Jun 2022

Certification Number
0809-CPR-1016 / Eurofins Expert Services Ltd, Kivimiehentie 4, FI-02150 Espoo. Finland
Designation Code
MW-EN 14303-T4-ST(+)500-WS1-MV2-CL10

Type-Examination (Module B) certificate No. EUFI29-21002096-MED

Nominal Density
50 kg/m³

Surface temperature of the facing must not exceed 80°C (temperature restriction determined in accordance with heat resistance adhesive).

PAROC stone wool products are capable of withstanding high temperatures. The binder starts to evaporate when its temperature exceeds approximately 200°C. The insulating properties remain unchanged, but the compressive stress weakens. The softening temperature of stone wool products is over 1000°C.

Dimensions

Dimensions
Width x LengthThickness
500, 1000 x 10000 mm20 mm
500, 1000 x 8000 mm25 mm
500, 1000 x 8000 mm30 mm
500, 1000 x 6000 mm40 mm
500, 1000 x 5000 mm50 mm
500, 1000 x 4000 mm60 mm
500, 1000 x 3500 mm70 mm
500, 1000 x 3000 mm80 mm
500, 1000 x 2500 mm90 mm
500, 1000 x 2500 mm100 mm
500, 1000 x 2400 mm120 mm
In accordance with EN 822In accordance with EN 823
Dimensional Stability
PropertyValueAccording to
Maximum Service Temperature - Dimensional Stability500 °C EN 14303:2009+A1:2013 (EN 14706)

Packaging

Package Type
Plastic Packs on Pallet

Fire Properties

Reaction to Fire
PropertyValueAccording to
Reaction to Fire, EuroclassA1 EN 14303:2009+A1:2013 (EN 13501-1)
Continuous Glowing Combustion
PropertyValueAccording to
Continuous Glowing CombustionNPD EN 14303:2009+A1:2013
Other Fire Properties
PropertyValueAccording to
Fire Classification (IMO)Non-Combustible IMO 2010 FTP Code Annex 1 Part 1

Thermal Properties

Thermal Resistance
PropertyValueAccording to
Thermal Conductivity in 10 °C, λ100,039 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 50 °C, λ500,045 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 100 °C, λ1000,055 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 150 °C, λ1500,066 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 200 °C, λ2000,081 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 300 °C, λ3000,120 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 400 °C, λ4000,169 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 500 °C, λ5000,230 W/mK EN 14303:2009+A1:2013 (EN 12667)
Dimensions and TolerancesT4 EN 14303:2009+A1:2013 (EN 823)

Moisture Properties

Water Permeability
PropertyValueAccording to
Water Absorption, Short Term WS, Wp≤ 1 kg/m² EN 14303:2009+A1:2013 (EN 1609)
Water Vapour Permeability
PropertyValueAccording to
Water Vapour Diffusion ResistanceMV2 EN 14303:2009+A1:2013 (EN 12086)

Rate of Release of Corrosive Substances

Trace Quantities of Water Soluble Ions and the pH Value
PropertyValueAccording to
Chloride Ions, Cl-< 10 ppm EN 14303:2009+A1:2013 (EN 13468)

Sound Properties

Acoustic Absorption Index
PropertyValueAccording to
Sound AbsorptionNPD EN 14303:2009+A1:2013 (EN ISO 354)

Mechanical Properties

Compressive Strength
PropertyValueAccording to
Compressive Stress at 10 % deformation CS(10), σ10NPD EN 14303:2009+A1:2013 (EN 826)

Emissions

Release of Dangerous Substances to the Indoor Environment
PropertyValueAccording to
Release of Dangerous SubstancesNPD EN 14303:2009+A1:2013

Facings

Facing Material
Reinforced alulaminate facing.

Certification Number
0809-CPR-1016 / Eurofins Expert Services Ltd, Kivimiehentie 4, FI-02150 Espoo. Finland
Designation Code
MW-EN 14303-T4-ST(+)500-WS1-MV2-CL10

Type-Examination (Module B) certificate No. EUFI29-21002096-MED

Nominal Density
50 kg/m³

Surface temperature of the facing must not exceed 80°C (temperature restriction determined in accordance with heat resistance adhesive).

PAROC stone wool products are capable of withstanding high temperatures. The binder starts to evaporate when its temperature exceeds approximately 200°C. The insulating properties remain unchanged, but the compressive stress weakens. The softening temperature of stone wool products is over 1000°C.

Dimensions

Dimensions
Width x LengthThickness
500, 1000 x 10000 mm20 mm
500, 1000 x 8000 mm25 mm
500, 1000 x 8000 mm30 mm
500, 1000 x 6000 mm40 mm
500, 1000 x 5000 mm50 mm
500, 1000 x 4000 mm60 mm
500, 1000 x 3500 mm70 mm
500, 1000 x 3000 mm80 mm
500, 1000 x 2500 mm90 mm
500, 1000 x 2500 mm100 mm
500, 1000 x 2400 mm120 mm
In accordance with EN 822In accordance with EN 823
Dimensional Stability
PropertyValueAccording to
Maximum Service Temperature - Dimensional Stability500 °C EN 14303:2009+A1:2013 (EN 14706)

Packaging

Package Type
Plastic Packs on Pallet

Fire Properties

Reaction to Fire
PropertyValueAccording to
Reaction to Fire, EuroclassA1 EN 14303:2009+A1:2013 (EN 13501-1)
Continuous Glowing Combustion
PropertyValueAccording to
Continuous Glowing CombustionNPD EN 14303:2009+A1:2013
Other Fire Properties
PropertyValueAccording to
Fire Classification (IMO)Non-Combustible IMO 2010 FTP Code Annex 1 Part 1

Thermal Properties

Thermal Resistance
PropertyValueAccording to
Thermal Conductivity in 10 °C, λ100,039 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 50 °C, λ500,045 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 100 °C, λ1000,055 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 150 °C, λ1500,066 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 200 °C, λ2000,081 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 300 °C, λ3000,120 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 400 °C, λ4000,169 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 500 °C, λ5000,230 W/mK EN 14303:2009+A1:2013 (EN 12667)
Dimensions and TolerancesT4 EN 14303:2009+A1:2013 (EN 823)

Moisture Properties

Water Permeability
PropertyValueAccording to
Water Absorption, Short Term WS, Wp≤ 1 kg/m² EN 14303:2009+A1:2013 (EN 1609)
Water Vapour Permeability
PropertyValueAccording to
Water Vapour Diffusion ResistanceMV2 EN 14303:2009+A1:2013 (EN 12086)

Rate of Release of Corrosive Substances

Trace Quantities of Water Soluble Ions and the pH Value
PropertyValueAccording to
Chloride Ions, Cl-< 10 ppm EN 14303:2009+A1:2013 (EN 13468)

Sound Properties

Acoustic Absorption Index
PropertyValueAccording to
Sound AbsorptionNPD EN 14303:2009+A1:2013 (EN ISO 354)

Mechanical Properties

Compressive Strength
PropertyValueAccording to
Compressive Stress at 10 % deformation CS(10), σ10NPD EN 14303:2009+A1:2013 (EN 826)

Emissions

Release of Dangerous Substances to the Indoor Environment
PropertyValueAccording to
Release of Dangerous SubstancesNPD EN 14303:2009+A1:2013

Facings

Facing Material
Reinforced alulaminate facing.

Certification Number
0809-CPR-1016 / Eurofins Expert Services Ltd, Kivimiehentie 4, FI-02150 Espoo. Finland
Designation Code
MW-EN 14303-T4-ST(+)500-WS1-MV2-CL10

Type-Examination (Module B) certificate No. EUFI29-21002096-MED

Nominal Density
50 kg/m³

Surface temperature of the facing must not exceed 80°C (temperature restriction determined in accordance with heat resistance adhesive).

PAROC stone wool products are capable of withstanding high temperatures. The binder starts to evaporate when its temperature exceeds approximately 200°C. The insulating properties remain unchanged, but the compressive stress weakens. The softening temperature of stone wool products is over 1000°C.

Dimensions

Dimensions
Width x LengthThickness
500, 1000 x 10000 mm20 mm
500, 1000 x 8000 mm25 mm
500, 1000 x 8000 mm30 mm
500, 1000 x 6000 mm40 mm
500, 1000 x 5000 mm50 mm
500, 1000 x 4000 mm60 mm
500, 1000 x 3500 mm70 mm
500, 1000 x 3000 mm80 mm
500, 1000 x 2500 mm90 mm
500, 1000 x 2500 mm100 mm
500, 1000 x 2400 mm120 mm
In accordance with EN 822In accordance with EN 823
Dimensional Stability
PropertyValueAccording to
Maximum Service Temperature - Dimensional Stability500 °C EN 14303:2009+A1:2013 (EN 14706)

Packaging

Package Type
Plastic Packs on Pallet

Fire Properties

Reaction to Fire
PropertyValueAccording to
Reaction to Fire, EuroclassA1 EN 14303:2009+A1:2013 (EN 13501-1)
Continuous Glowing Combustion
PropertyValueAccording to
Continuous Glowing CombustionNPD EN 14303:2009+A1:2013
Other Fire Properties
PropertyValueAccording to
Fire Classification (IMO)Non-Combustible IMO 2010 FTP Code Annex 1 Part 1

Thermal Properties

Thermal Resistance
PropertyValueAccording to
Thermal Conductivity in 10 °C, λ100,039 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 50 °C, λ500,045 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 100 °C, λ1000,055 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 150 °C, λ1500,066 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 200 °C, λ2000,081 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 300 °C, λ3000,120 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 400 °C, λ4000,169 W/mK EN 14303:2009+A1:2013 (EN 12667)
Thermal Conductivity in 500 °C, λ5000,230 W/mK EN 14303:2009+A1:2013 (EN 12667)
Dimensions and TolerancesT4 EN 14303:2009+A1:2013 (EN 823)

Moisture Properties

Water Permeability
PropertyValueAccording to
Water Absorption, Short Term WS, Wp≤ 1 kg/m² EN 14303:2009+A1:2013 (EN 1609)
Water Vapour Permeability
PropertyValueAccording to
Water Vapour Diffusion ResistanceMV2 EN 14303:2009+A1:2013 (EN 12086)

Rate of Release of Corrosive Substances

Trace Quantities of Water Soluble Ions and the pH Value
PropertyValueAccording to
Chloride Ions, Cl-< 10 ppm EN 14303:2009+A1:2013 (EN 13468)

Sound Properties

Acoustic Absorption Index
PropertyValueAccording to
Sound AbsorptionNPD EN 14303:2009+A1:2013 (EN ISO 354)

Mechanical Properties

Compressive Strength
PropertyValueAccording to
Compressive Stress at 10 % deformation CS(10), σ10NPD EN 14303:2009+A1:2013 (EN 826)

Emissions

Release of Dangerous Substances to the Indoor Environment
PropertyValueAccording to
Release of Dangerous SubstancesNPD EN 14303:2009+A1:2013

Facings

Facing Material
Reinforced alulaminate facing.