B415 High Viscosity Cyanoacrylate 20g

SKU: BONB41520

Bondloc B415 is a high viscosity Cyanoacrylate that bonds metals, plastics, wood, ceramics, rubber, leather, card, glass and many other materials.

Cyanoacrylate adhesives cure through reaction with moisture held on the surface to be bonded. They need close fitting joints and usually solidify in seconds which has resulted in the universal generic name of 'superglues'. Curing is started by the film of moisture found on most surfaces which is usually slightly alkaline and it is this alkalinity which causes the polymerisation.

Most grades have varying viscosities and therefore they need close fitting joints. Newer developments of gelled variants allow cure in wider gaps and application to vertical surfaces. Cyanoacrylates are suited to small plastic parts and to rubber bonding.

Liquid Properties:

Ester base: Ethyl cyanoacrylate
Appearance: Clear, colourless
Specific Gravity: 25°C 1.06 g/cm²
Shelf life: 12 months unopened
Viscosity @ 25°C: 1200 - 1800

Size: 20g

£20.32 Ex VAT

Bondloc B415 is a high viscosity Cyanoacrylate that bonds metals, plastics, wood, ceramics, rubber, leather, card, glass and many other materials.

Cyanoacrylate adhesives cure through reaction with moisture held on the surface to be bonded. They need close fitting joints and usually solidify in seconds which has resulted in the universal generic name of 'superglues'. Curing is started by the film of moisture found on most surfaces which is usually slightly alkaline and it is this alkalinity which causes the polymerisation.

Most grades have varying viscosities and therefore they need close fitting joints. Newer developments of gelled variants allow cure in wider gaps and application to vertical surfaces. Cyanoacrylates are suited to small plastic parts and to rubber bonding.

Liquid Properties:

Ester base: Ethyl cyanoacrylate
Appearance: Clear, colourless
Specific Gravity: 25°C 1.06 g/cm²
Shelf life: 12 months unopened
Viscosity @ 25°C: 1200 - 1800

Size: 20g

PRODUCTS YOU MAY ALSO NEED...