Acrylic fire-retardant joint sealant
Fire protection joint sealer acrylic
FPSEAL-ACRY-B2-WHITE-310ML
Register now and access more than 125,000 products
- Designed for easy use on construction sites
- Building material class B2
- Neutral odour
- Resists ageing and weathering
- Good UV resistance
- Colour: White, similar to RAL 9003
- Halogen-free
- Silicone-free
- The surface must be dry, capable of bearing loads and free of dust or grease
Pre-treat absorbent surfaces with diluted sealing compound (one to four parts water to one part acrylic fire-retardant joint sealant)
- The sealant must only be subject to two-side adhesion
- Calculate the joint width to joint depth ratio in accordance with DIN 18540
- Clean tools with water immediately after use
Fresh sealant can be removed using a damp cloth.
- Observe general construction test certificate ABP no. P-3786/243/11-MPA BS for use in classified fire protection joints
General construction test certificate MPA Braunschweig P-3786/243/11-MPA BS
Datasheets(X)
For use in the system [G] + J1
- Pipe partition E [G]
- Joint system A J1
- Sealing system for construction joints with low expansion load
- F 30-F 90 in accordance with DIN 4102 part 2
Colour | White |
Building material class | B2 - Normally inflammable |
Min./max. processing temperature | 5 to 40 °C |
Shelf life from production | 24 Month |
Contents | 310 ml |
Chemical basis | Acrylate dispersion |
Container | Cartridge |
Fully hardening/curing conditions | 23°C and 50% relative humidity |
Full curing speed | 2 mm/d |
Conditions to maintain shelf life from production | cool, dry and frost-free storage area |
Density | 1.56 g/cm³ |
Min. temperature resistance of the hardened material | -25 °C |
Max. temperature resistance of the hardened material | 80 °C |
Conditions for skin-formation time | at 23°C and 50% relative humidity |
Min. skin-formation time | 10 min |
Stability under load | 2 mm |
Max. motion absorption (in %) | 15 % |
Shore A hardness | 20 |
Product weight (per item) | 542.000 g |
Max. material shrinkage | 16 % |
Conditions for material shrinkage | in accordance with ISO 10563 |