Authors: Cepeda-Jiménez, Carmen M.¹; Pastor-Blas, M. Mercedes¹; Martín-Martínez, José Miguel¹

Source: Journal of Adhesion Science and Technology, Volume 15, Number 11, 2001 , pp. 1323-1350(28)

Publisher: VSP, an imprint of Brill

Abstract:

A synthetic vulcanized styrene-butadiene rubber (R2) was used in this study. The presence of paraffin wax and zinc stearate in the rubber composition prevented the adhesion of R2 rubber to solvent-based polyester-urethane adhesive. To increase the adhesion properties of R2 rubber, a surface treatment with sulfuric acid (cyclization) was applied, and the length of the immersion in sulfuric acid and the time between the immersion time and the neutralization were varied. The treated R2 rubber surfaces were characterized using ATR-IR spectroscopy, contact angle measurements (water, ethanediol), and scanning electron microscopy (SEM). The mechanical properties of the treated rubber were obtained from stress-strain experiments. The joint strength was obtained from the T-peel test on treated R2 rubber/polyurethane adhesive joints. Due to the penetration of the sulfuric acid into the R2 rubber bulk, the mechanical properties decreased. The treatment with sulfuric acid produced several chemical modifications on the rubber surface: sulfonation of the butadiene and the creation of C C and C O bonds. Furthermore, the surface treatment of the R2 rubber with sulfuric acid removes paraffin wax from the rubber surface, which had a beneficial effect on adhesion to the polyurethane adhesive. To remove the wax layer, the surface was wiped with petroleum ether solvent after treating the R2 rubber with sulfuric acid. However, in some experiments a progressive migration of wax from the R2 rubber bulk to the surface with time happened. The migration of wax was prevented by increasing the immersion time in H₂SO₄ by more than 5 min.

Keywords: VULCANIZED SBR RUBBER; CYCLIZATION; SOLVENT WIPING; TREATMENT WITH SULFURIC ACID; WEAK BOUNDARY LAYER; CONTACT ANGLE; ATR-IR SPECTROSCOPY; SEM; T-PEEL STRENGTH

Document Type: Research article

DOI: 10.1163/15685610152599377

Affiliations: 1: Adhesion & Adhesives Laboratory, Department of Inorganic Chemistry, University of Alicante, 03080 Alicante, Spain

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