Sarnafil® G 410-15 L
Polymeric PVC detailing membrane for roof waterproofing
Sarnafil® G 410-15 L (thickness 1.5 mm) is a multi-layer, synthetic roof waterproofing sheet based on polyvinyl chloride (PVC) with a glass non-woven inlay. It contains ultraviolet light stabilisers according to EN 13956 / GB 12952. Sarnafil® G 410-15 L is a hot-air weldable roof membrane, formulated for direct exposure and designed for use in all global climatic conditions.
- Proven performance over decades
- Lacquer coated surface
- Resistant to permanent UV exposure
- High dimensional stability from glass fleece inlay
- High water vapour permeability
- Resistant to all common environmental influences
- Resistant to micro-organisms
- Resistant to root penetration
- Hot-air weldable
- No open flame equipment required
Usage
Sarnafil® G 410-15 L may only be used by experienced professionals. Waterproofing detailing membrane for:- Exposed flat roofs (Sarnafil® S 327 L or Sarnafil® G 410 L Felt)
- Ballasted roofs e.g. Green roofs, Utility roofs, Inverted roofs, Gravel roofs (Sarnafil® G 476)
Advantages
- Proven performance over decades
- Lacquer coated surface
- Resistant to permanent UV exposure
- High dimensional stability from glass fleece inlay
- High water vapour permeability
- Resistant to all common environmental influences
- Resistant to micro-organisms
- Resistant to root penetration
- Hot-air weldable
- No open flame equipment required
Packaging
Standard rolls are wrapped individually in a blue PE-foil.
Packing unit | Refer to price list |
Roll length | 20,00 m |
Roll width | 2,00 m |
Roll weight | 78 kg |
Colour
Surface | matt |
Colours | |
Top Surface | white (other colours on request) |
Bottom surface | dark grey |
Product Details
SUSTAINABILITY
- Conformity with LEED v4 MRc 3 (Option 2): Building Product Disclosure and Optimization - Sourcing of Raw Materials
- Conformity with LEED v4 MRc 4 (Option 2): Building Product Disclosure and Optimization - Material Ingredients
APPROVALS / STANDARDS
- CE Marking and Declaration of Performance to EN 13956 - Polymeric sheets for roof waterproofing
- GB 12952, Sarnafil® G 410-15 L, Test report No. RS19-21
Chemical base
Polyvinyl Chloride (PVC)
Shelf life
5 years from date of production.
Storage conditions
Product must be stored in original unopened and undamaged packaging in dry conditions and temperatures between +5 °C and +30 °C. Store in a horizontal position. Do not stack pallets of the rolls on top of each other, or under pallets of any other materials during transport or storage. Always refer to packaging.
Product Declaration
EN 13956: Polymeric sheets for roof waterproofing
GB 12952 - Type G
Visible Defects
Pass | (EN 1850-2) |
Length
20 m (-0 / +5 %) | (EN 1848-2) |
Width
2 m (-0,5 / +1 %) | (EN 1848-2) |
Effective Thickness
1,5 mm (-5 / +10 %) | (EN 1849-2) |
Straightness
≤ 30 mm | (EN 1848-2) |
Flatness
≤ 10 mm | (EN 1848-2) |
Mass per unit area
1,89 kg/m² (-5 / +10 %) | (EN 1849-2) |
System Structure
The following products must be considered for use depending on roof design:
- Sarnafil® Metal Sheet
- Sarnabar®
- Sarna Seam Cleaner
- Sarnacol® 2170 (contact adhesive)
- Sarna Cleaner
Ancillary products: wide range of accessories is available e.g. prefabricated parts, roof drains, scuppers, walkway pads and decor profiles
Compatibility
Not compatible in direct contact with bitumen, tar, fat, oil, solvent containing materials and other plastic materials, e.g. expanded polystyrene (EPS), extruded polystyrene (XPS), polyurethane (PUR), polyisocyanurate (PIR) or phenolic foam (PF). These materials could adversely affect the product properties.
Resistance to Impact
hard substrate | ≥ 600 mm |
soft substrate | ≥ 1250 mm |
Resistance to Static Load
soft substrate | ≥ 20 kg |
rigid substrate | ≥ 20 kg |
Resistance to Root Penetration
Pass | (EN 13948) |
Tensile Strength
longitudinal (md)1) | ≥ 8,5 N/mm2 |
Ctransversal (cmd)2) | ≥ 8,5 N/mm2 |
1) md = machine direction 2) cmd = cross machine direction
Elongation
longitudinal (md)1) | ≥ 180 % |
transversal (cmd)2) | ≥ 180 % |
1) md = machine direction 2) cmd = cross machine direction
Dimensional Stability
longitudinal (md)1) | ≤ |0,2| % |
transversal (cmd)2) | ≤ |0,2| % |
1) md = machine direction 2) cmd = cross machine direction
Tear Strength
≥ 50 N/mm | (GB/T529) |
Joint Peel Resistance
Failure mode: C, no failure of the joint | (EN 12316-2) |
Foldability at Low Temperature
≤ -25 °C | (EN 495-5) |
Reaction to Fire
Class E | (EN13501-1) |
Resistance to UV Exposure
Pass (> 5 000 h / grade 0) | (EN 1297) |
Watertightness
Pass | (EN 19289) |
Solar Reflectance Index
106 (white, initial) | (ASTM E 1980) |
Application
Ambient Air Temperature
-20 °C min. / +60 °C max.
Substrate Temperature
-30 °C min. / +60 °C max.
EQUIPMENT
Hot welding overlap seams Electric hot-air welding equipment, such as hand held manual hot air welding equipment and pressure rollers or automatic hot-air welding machines with controlled hot air temperature capability of a minimum +600 °C. Recommended type of equipment:
- Manual: Leister Triac
- Automatic: Sarnamatic 681
SUBSTRATE QUALITY
The substrate surface must be uniform, smooth and free of any sharp protrusions or burrs, etc. Sarnafil® G 410-15 L must be separated from any incompatible substrates / materials by an effective separation layer to prevent accelerated ageing. The supporting layer must be compatible to the membrane, solvent resistant, clean, dry and free of grease and dust. Metal sheets must be degreased with Sarna Cleaner before adhesive is applied.
APPLICATION
Installation procedure Strictly follow installation procedures as defined in method statements, application manuals and working instructions which must always be adjusted to the actual site conditions.
Flashings Refer to standard details in Application Manual.
Hot welding overlap seams Overlap seams must be welded by electric hot welding equipment. Welding parameters including temperature, machine speed, air flow, pressure and machine settings must be evaluated, adapted and checked on site according to the type of equipment and the climatic conditions prior to welding. The effective width of welded overlaps by hot-air must be a minimum 20 mm.
Testing overlap seams The seams must be mechanically tested with screw-driver (rounded edges) to ensure the integrity/completion of the weld. Any imperfections must be rectified by hot air welding.