Using a sulfur-bearing silane to improve rubber formulations for potential use in industrial rubber articles

This is an Accepted Manuscript of an article published by Taylor & Francis in Journal of Adhesion Science and Technology on 13/08/2012, available online: http://dx.doi.org/10.1080/01694243.The availability of the coupling agent bis (3-triethoxysilylpropyl)-tetrasulfide (TESPT) has provided an opportunity for enhancing the reinforcing capabilities of precipitated amorphous white silica in rubber. Styrene-butadiene rubber, synthetic polyisoprene rubber (IR), acrylonitrile-butadiene rubber, and natural rubber (NR) containing the same loading of a precipitated silica filler were prepared. The silica surface was pretreated with TESPT, which is a sulfur-bearing bifunctional organosilane to chemically bond silica to the rubber. The rubber compounds were subsequently cured by reacting the tetrasulfane groups of TESPT with double bonds in the rubber chains and the cure was optimized by adding sulfenamide accelerator and zinc oxide. The IR and NR needed more accelerators for curing. Surprisingly, there was no obvious correlation between the internal double bond content and the accelerator requirement for the optimum cure of the rubbers. Using the TESPT pretreated silanized silica was a very efficient method for cross-linking and reinforcing the rubbers. It reduced the use of the chemical curatives significantly while maintaining excellent mechanical properties of the cured rubbers. Moreover, it improved health and safety at work-place, reduced cost, and minimized damage to the environment because less chemical curatives were used. Therefore, TESPT was classified as "green silane" for use in rubber formulations

Gut modulatory effects of Daphne oleoides are mediated through cholinergic and Ca++ antagonist mechanisms.

Context: The present study describes the spasmogenic and spasmolytic activities of Daphne oleoides Schreb. (Thymelaeaceae), exploring the possible underlying pharmacological mechanisms. Aim: Pharmacological investigation of Daphne oleoides to provide evidence for its therapeutic application in gastrointestinal motility disorders. Materials And Methods: Methanol crude extract of Daphne oleoides (Do.Cr) was studied in gastrointestinal isolated tissues. Results: In spontaneously contracting rabbit jejunum preparations, Do.Cr at 0.3-3.0 mg/mL caused moderate stimulation, followed by relaxant effect at the next higher concentrations (5.0-10mg/mL). In presence of atropine, spasmogenic effect was blocked and the relaxation was emerged, suggesting that the spasmogenic effect of Daphne oleoides is mediated through activation of muscarinic receptors. When tested against the high K+ (80mM)-induced contractions, Do.Cr (0.3-5.0mg/mL), like verapamil, inhibited the induced contractions, suggesting Ca++ channel blockade (CCB) effect. The CCB effect was further confirmed when pre-treatment of the tissue with Do.Cr shifted the Ca++ concentration-response curves to the right, similar to that caused by verapamil. DISCUSSION and Conclusion: These results indicate that Daphne oleoides exhibits gut excitatory and inhibitory effects, occurred via cholinergic and Ca++ antagonistic pathways, respectively