Description
Tecnology | Cyanoacrylate |
Chemistry | Ethyl-2-Cyanoacrylate |
Aspect | Off-Transparent |
Density (25°C) | 1,10 ± 0.05 g/cm3 |
Viscosity Brookfield @25°C
(Sp1 @20rpm) |
Gel Thixotropic |
Substrates | Metal, platics, rubber |
Formulated for the assembly of difficult to bond materials that require uniform stress distribution and high resistance to loads and traction / shear stress. The product guarantees the rapid bonding of a wide range of substrates, including metals, plastics and elastomers.
Instant adhesive with very high viscosity, gel.
Greater flexibility than common cyanoacrylate based instant adhesives.
Tecnology | Cyanoacrylate |
Chemistry | Ethyl-2-Cyanoacrylate |
Aspect | Off-Transparent |
Density (25°C) | 1,10 ± 0.05 g/cm3 |
Viscosity Brookfield @25°C
(Sp1 @20rpm) |
Gel Thixotropic |
Substrates | Metal, platics, rubber |
Specific work-setting (component) | Operating Temperature <0 ° C, STATIC bonding-line <100 cm (LIGHT HANDLING) |
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Type of joint (application mode) | HEAD to HEAD, SMALL POINT – DROP |
Substrates (suitable adherings match)) | ELASTOMERS – GASKETS # ELASTOMERS – GASKETS, ELASTOMERS – GASKETS # METALS and / or ALLOYS (Al – Ti – Ni – Cr – Fe), FABRICS # ARAMIDE FIBER-REINFORCED COMPOSITES, FABRICS # CARBON FIBER-REINFORCED COMPOSITES, FABRICS # FABRICS, FABRICS # GLASS REINFORCED FIBER COMPOSITES, FABRICS # HIGH ENERGY SURFACE THERMO-PLASTIC POLYMERS, FABRICS # METALS and / or ALLOYS (Cu / Zn – Fe – Pb), HIGH ENERGY SURFACE THERMO-PLASTIC POLYMERS # HIGH ENERGY SURFACE THERMO-PLASTIC POLYMERS, LOW ENERGY SURFACE THERMO-PLASTIC POLYMERS # LOW ENERGY SURFACE THERMO-PLASTIC POLYMERS, LOW ENERGY SURFACE THERMO-PLASTIC POLYMERS # METALS and / or ALLOYS (Al – Ti – Ni – Cr – Fe), WOOD # WOOD |
Adhesive Working Time | < 1 MINUTE, < 10 MINUTES |
Adhesive Fixture Time | < 1 MINUTE, < 10 MINUTES, 10 ÷ 30 MINUTES |
component sector/process | AERONAUTICAL / AEROSPACE, AUTOMOTIVE – TRUCK – BUS – AGRICULTURAL, FORESTRY MACHINES, INDUSTRIAL COMPONENTS, MILITARY DEFENCE, SPORT, TRAINS, WIND ENERGY |
Type of failure mode (after joint stress) | COHESIVE (bonding failure inside the adhesive: residue presence on substrates), SUBSTRATE ((adhering structure failure: adhesive causes a fracture on substrate) |