GC EUROPE Unifil Bond User Manual

GC

UniFil Bond Technical manual version 1.10, November 2005, 4/23

• Chemical adhesion is the main mechanism by which glass ionomer cements are

bonded to dentine and enamel surfaces. The carboxyl group (COOH) of

polyalkenoic acids (the liquid component of glass ionomer cement) is ionized by
reaction with powder into carboxylic acid ions (COO

-

). These ions have extremely

strong ionic bonds with calcium ions (Ca

2+

) in the tooth apatite. The adhesion is

so strong that laboratory testing often shows cohesive failure within the cement

rather than adhesive failure at the interface. Class V retention studies have
shown that long term stability of this adhesion is clinically relevant.

• A combined chemical adhesion / mechanical interlocking can be observed by

using resin reinforced glass ionomers in combination with the appropriate

conditioners

.

These resin reinforced glass ionomer cements have grown quickly in

popularity as highly successful adhesive materials for crown and bridge

cementation (GC Fuji PLUS), composite lining and bonding (GC Fuji Bond LC) and
for orthodontic bonding of brackets and bands (GC Fuji ORTHO LC).

GC Fuji BOND LC

GC Fuji PLUS

GC Fuji BOND LC

Interface with dentine

Interface with dentine Interface with dentine

GC UniFil Bond represents the result of GC’s application of glass ionomer adhesion
concepts into an advanced, user-friendly, resin bonding system.

Chemical adhesion of glass ionomers to tooth structure

Mechanical retention due to resin tag formation