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Abstract : It is well established that the degree of filler dispersion has a major influence on the physical properties of rubber compounds. Typical fillers, e.g. carbon black and silica, are difficult to disperse, particularly if they are fine and low structured. As a result, the quantity of undispersed fillers generally amounts for 1% to 10% of the compound and higher in some other cases. The elimination, or at least the reduction, of agglomerates will result in rubber parts (e.g. tires, seals, belts) with improved properties and higher reliability. Clearly, a better understanding of the physics of batch mixers would help improve their mixing performance. Due to the complexity of the real process, experiments on a representative device were held from which a model has been deduced. It appears to be a generalization of the law of Kao and Mason, but for high viscous matrices. The next step was to get a model available for statistically large number of pellets as can be found in any sample taken out of the mixer. A statistical approach is used where we define a model describing the evolution of mass density function of agglomerate sizes. Eventually, we implement this model within available numerical simulation tools to estimate dispersion in real mixers.
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Contributor : Nadine Alziary - Manuel Connect in order to contact the contributor
Submitted on : Friday, May 12, 2017 - 2:50:43 PM
Last modification on : Wednesday, November 17, 2021 - 12:28:22 PM


  • HAL Id : hal-01507427, version 1


Véronique Collin, Edith Peuvrel-Disdier, B. Alsteens, Vincent Legat, T. Avalosse, et al.. NUMERICAL AND EXPERIMENTAL STUDY OF DISPERSIVE MIXING OF AGGLOMERATES. Society of Plastics Engineers. ANTEC 2006, 64th Annual Conference, May 2006, Charlotte, North Carolina, United States. pp.908-912, 2006, ANTEC 2006 Proceedings of the 64th Annual Conference. ⟨hal-01507427⟩



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