Double Sided Acrylic Core Tapes

Double Sided Acrylic Core Tapes

tesa® ACXplus provides a powerful and long-lasting bond as the acrylic adhesive has optimal wetting characteristics and chemically adapts to surfaces.

tesa ACXplus acrylic core double sided tape

tesa ACXplus is an acrylic core double sided tape for high performance constructive bonding and is the highest performing product range made by tesa. The range is based on a solid acrylic core or a foamed acrylic core.

The high performance of tesa ACXplus is based on a special feature called 'viscoelasticity'. Viscoelasticity describes a material which is defined by both viscous and elastic properties. The elastic restoring forces provides inner strength whilst the viscous part allows for relaxation of mechanical stresses. This means the tape is able to compensate for the different thermal expansion and contraction characteristics of dissimilar materials.

The special balance between these two properties not only provides optimal wetting of different surfaces i.e. optimum surface contact, but also absorbs dynamic forces and vibrations relieving stresses in the bond. This means the bond is both dimensionally stable and permanent

tesa ACXplus Double Sided Acrylic Core Tape

Adhesive tapes offer powerful long-lasting bonds – even on materials with different surface characteristics.
tesa ACXplus Double Sided Acrylic Core Tape
tesa® ACXplus Acrylic Core tapes offer a high resistance to temperatures and different weather conditions. The main reason is the oxidation resistance of the fully saturated carbon chain which is the foundation of the acrylates used in tesa® ACXplus
tesa® ACXplus Acrylic Core tape is characterised by a very strong bonding power. Applied loads like wind, snow and the permanent load of bonded components can be accommodated by tesa® ACXplus without problems.
Due to the viscoelastic behaviour of tesa® ACXplus arising stresses can be optimally dissipated and a secure bond is assured. Extreme temperature changes are accommodated even for bonded substrates with different elongation characteristics.