Adhesion Promotion on Inorganic and Organic Substrates

An adhesion promoter is a bi-functional compound that can chemically react with both the substrate and the adhesive. Known for increasing an adhesive’s bond strength, it can be applied in two ways by being mixed with the adhesive or applied directly to the substrate. Unlike priming systems, silane adhesion promoters are generally applied at thinner film thicknesses. An adhesion promoter’s effectiveness depends on both the substrate and the adhesive being used. Surface pretreatments, such as solvent cleaning or mechanical etching, can be used with adhesion promoters as part of a pretreatment method.

ADHESION PROMOTERS FOR METAL AND HIGH-SURFACE-ENERGY INORGANIC SUBSTRATES

The most common commercial adhesion promoter is based around silane coupling agents. Silanes are most often used to promote the adhesion between polymeric systems and inorganic substrates.
Silane promoters typically comprise a tetravalent Si core (which has an organo functional tail) and some form of hydrolyzable group, such as a chloro or alkoxy attached. When applied to the substrate surface, the silane is hydrolyzed to form a silanol, which condenses and polymerizes with itself to form an extended network. If the silanol is on a substrate with sufficient oxide functionality, cross coupling can take place, anchoring the polymerized silanol to the surface . The choice of organofunctional tail on the silane is dictated by the adhesive class that is being used (e.g., for an epoxy adhesive system, a tail containing an amino or epoxy moiety would be suitable).
The effectiveness of silanes depends on the substrate being used; smooth, high-surface-energy substrates are better than low-surface-energy or discontinuous substrates .
Titanate and zirconate coupling agents are growing in popularity. They are predominately used to improve filler polymer adhesion in composites. Both titanates and zirconates react similarly to silane coupling agents by way of condensation to surface hydroxyl groups; however, unlike silanes, there is not condensation polymerization to produce a network at the interface.

ADHESION PROMOTERS FOR ORGANIC AND LOW-SURFACE-ENERGY INORGANIC SUBSTRATES

Low-surface-energy and solvent and chemical inertness all make organic materials difficult to bond. The lack of “surface chemistry”(such as hydroxyl) on most organic substrates renders silane adhesion promoters ineffective.

Recently, Oxford Advanced Surfaces developed Onto®, a novel class of adhesion promoters for use on organic and low-surfaceenergy inorganic substrates.
Adhesion promoters conceptually resemble those based around a silane — a functional tail covalently linked to a reactive head. The reactive head in the Onto adhesion promoter is based around a latent reactive intermediate, a class of organic functionality, which, upon application of an external stimulus, converts from a stable state to a highly reactive radical intermediate. This radical intermediate is capable of reacting with C-H, O-H and N-H bonds, as well as C C and C C bonds . This range of reactivity allows the adhesion promoter to react with nearly all organic substrates — from polyolefins to polyimides, as well as polyesters and inorganic materials such as carbon black and diamond .
Onto adhesive promoters are applied as solventborne formulations in MEK or toluene by way of appropriate coating techniques (such as spray, dip, spin or roll-to-roll) then cured by activated heat (approximately 100oC) or UV light (254 nm).
These adhesive promoters have been demonstrated on both Melinex-OD polyester film and Kapton-HN polyimide film, and have been shown to increase the T-peel and lap sheer forces when used in conjunction with cyanoacrylate  or epoxy adhesives