Science and Technology of Rubber 1994
DOI: 10.1016/b978-0-08-051667-7.50013-5
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Reinforcement of Elastomers by Particulate Fillers

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Cited by 72 publications
(45 citation statements)
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“…Generally, the drop in the tensile strength has been attributed to the reduction of the polymer fraction in the transverse cross-section of the polymer [27], which becomes an even greater issue due to the extremely large surface area of the filler used, and the presence of stress concentration around the filler's particles [28]. However, there are also reported that in some polymers like polyurethanes the tensile strength can increases by increasing the CN content [29], while the most characteristic example is rubber reinforced by CN, which results in increased Young's modulus and tensile strength [30]. In our case such enhancement in tensile strength was not achieved maybe due to the e aggregates than CN are formed into PP matrix.…”
Section: Mechanical Propertiesmentioning
confidence: 95%
“…Generally, the drop in the tensile strength has been attributed to the reduction of the polymer fraction in the transverse cross-section of the polymer [27], which becomes an even greater issue due to the extremely large surface area of the filler used, and the presence of stress concentration around the filler's particles [28]. However, there are also reported that in some polymers like polyurethanes the tensile strength can increases by increasing the CN content [29], while the most characteristic example is rubber reinforced by CN, which results in increased Young's modulus and tensile strength [30]. In our case such enhancement in tensile strength was not achieved maybe due to the e aggregates than CN are formed into PP matrix.…”
Section: Mechanical Propertiesmentioning
confidence: 95%
“…The obvious perceptive of the reinforcing effect of nanocomposites is important in the design of nanomaterials with desirable properties. The reinforcement of spherical fillers is primarily due to hydrodynamic interactions between the rubber and filler surfaces [1]. Sternstein et al [2] have found experimentally that the mechanism for reinforcement in nanocomposites can be attributed to filler matrix interactions, rather than filler agglomeration or percolation.…”
Section: Introductionmentioning
confidence: 98%
“…For samples with silanized mica, swelling sorption of polymer segments at several sites of a filler particle, which effectively introduces giant multifunctional crosslinks into the system and increases the network chain density. 29 Effect of bridging via silanization on mica reinforcement is observed by an increase in tensile strength for both types of polybutadienes. It is well known that if there is adhesion between polymer and filler, tensile strength of the composite increases.…”
mentioning
confidence: 96%