Role of chemical bonding in the adhesion of elastomers. Technical report
A review is given of several studies of the effect of interfacial bonding upon the mechanical strength of an adhesive joint. In the first, polybutadiene layers were crosslinked by a free radical process whilst in contact with silane-treated glass. A direct proportionality was found between the minimum peel strength of the joint, as high temperatures and low rates of peeling, and the vinyl content of the silane treatment liquid. Covalent bonding between the diene polymer and vinyl groups on the treated glass was inferred. When radioactivity tagged silanes were employed, extensive combination with the glass substrates was demonstrated. Again, the greater the amount of vinyl silane found on the treated glass surface, the greater the mechanical strength of adhesion between the treated glass and a polybutadiene overlayer. In another series of experiments two partially crosslinked sheets of polybutadiene were pressed together before the crosslinking was taken to completion. The additional crosslinking was determined from measurements of the elastic properties and of the degree of equilibrium swelling by a compatible liquid. Again, the mechanical strength of adhesion between the two sheets under threshold conditions was found to be directly proportional to the inferred degree of interfacial interlinking.
- Research Organization:
- Akron Univ., OH (USA). Inst. of Polymer Science
- OSTI ID:
- 5882319
- Report Number(s):
- AD-A-097223/2
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
ELASTOMERS
ADHESION
JOINTS
ADHESIVES
CHEMICAL BONDS
COVALENCE
CROSS-LINKING
ELASTICITY
GLASS
INTERFACES
LABELLED COMPOUNDS
ORGANIC POLYMERS
PLASTICS
POLYVINYLS
PROCESSING
RADICALS
RADIOACTIVITY
SILANES
SUBSTRATES
CHEMICAL REACTIONS
HYDRIDES
HYDROGEN COMPOUNDS
MATERIALS
MECHANICAL PROPERTIES
ORGANIC COMPOUNDS
PETROCHEMICALS
PETROLEUM PRODUCTS
POLYMERIZATION
POLYMERS
SILICON COMPOUNDS
SYNTHETIC MATERIALS
TENSILE PROPERTIES
360403* - Materials- Polymers & Plastics- Mechanical Properties- (-1987)