Abstract
The aim of this study was to evaluate the various roles of 1,3-DiPhenyl Guanidine (DPG) in silica-reinforced rubber compounds. Two roles of DPG are well known to be: adsorption onto silica surface to reduce the acidic sites and second to boost the silanization reaction as secondary accelerator. However, these two roles are in a way conflicting. When DPG molecules occupy the reactive silanol sites on silica by adsorption, then the access of silane molecules needed for silica-rubber coupling is blocked. Therefore, it may be assumed that there is another role DPG plays in silica filled rubber compounds. In order to evaluate another role which can reconcile these contradictory functions of DPG, a series of rubber compound mixings was performed with different DPG concentrations in the masterbatch and final stages. Additionally, a series of model reaction experiments has been done in combination with other ingredients, such as zinc oxide and stearic acid. According to the results a new role of DPG is observed: DPG possibly reacts with the silane coupling agent bis-(triethoxysilylpropyl)tetrasulfide (TESPT) and releases sulfur during the mixing process, which enhances filler-polymer coupling, but reduces cure rate and crosslink density.
Highlights
The aim of this study was to evaluate the various roles of 1,3-DiPhenyl Guanidine (DPG) in silica-reinforced rubber compounds
This result can be explained in two ways: boosting of the silanization reaction induced by the presence of DPG, or adsorption of DPG on the silica surface
The focus of this study was to investigate the various functions of DPG in silica/silane reinforced rubber, which can harmonize the con flicting point between the two well-known roles: adsorption onto the silica surface in order to reduce the acidity and accelerating the silani zation reaction
Summary
The aim of this study was to evaluate the various roles of 1,3-DiPhenyl Guanidine (DPG) in silica-reinforced rubber compounds. Two roles of DPG are well known to be: adsorption onto silica surface to reduce the acidic sites and second to boost the silanization reaction as secondary accelerator. These two roles are in a way conflicting. 1,3-DiPhenylGuanidine (DPG) has been known for long as a com mon so-called secondary accelerator for sulfur-vulcanization/ crosslinking of carbon-black reinforced rubber compounds. While reacting with the silanol groups DPG re duces the polarity of silica by being adsorbed onto the silica surface [4,5,6]; and DPG is capable of accelerating the silanization reaction [2,4,7,8]. B High cis-1,4 polybutadiene rubber (BR) with a Mooney viscosity (ML1+4@100 ◦C) of 44 and a cis-1,4 content of 96%. c HD silica: Highly Dispersible silica. d DPG: 1,3-dyphenylguanidine. e ZBEC: zinc dibenzyldithiocarbamate. f CBS: N-cyclohexyl-2-benzothiazolesulphenamide
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