2019
DOI: 10.1155/2019/5891051
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Silica-Reinforced Natural Rubber: Synergistic Effects by Addition of Small Amounts of Secondary Fillers to Silica-Reinforced Natural Rubber Tire Tread Compounds

Abstract: Modern fuel-saving tire treads are commonly reinforced by silica due to the fact that this leads to lower rolling resistance and higher wet grip compared to carbon black-filled alternatives. The introduction of secondary fillers into the silica-reinforced tread compounds, often named hybrid fillers, may have the potential to improve tire performance further. In the present work, two secondary fillers organoclay nanofiller and N134 carbon black were added to silica-based natural rubber compounds at a proportion… Show more

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Cited by 76 publications
(42 citation statements)
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“…The presence of small molecules like amine-based substance such as aliphatic amines and DPG in this work has been reported to help shielding off those left-over silanol groups and reduce the cure retardation [9,10]. Nevertheless, the pure silica-filled compound still shows longer scorch and cure times with lower cure rate index compared to the systems with silica/CB mixed fillers as corresponded to the previous works for silica/CB [23,30], silica/bentonite [31] and silica/nanoclay [14,23]. The addition of CB reduces both scorch and cure times especially in the range of 0-40 wt% relative to total filler, thereafter the values decrease slightly with increasing amount of CB.…”
Section: Mixing Behavior Processability and Cure Propertiessupporting
confidence: 72%
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“…The presence of small molecules like amine-based substance such as aliphatic amines and DPG in this work has been reported to help shielding off those left-over silanol groups and reduce the cure retardation [9,10]. Nevertheless, the pure silica-filled compound still shows longer scorch and cure times with lower cure rate index compared to the systems with silica/CB mixed fillers as corresponded to the previous works for silica/CB [23,30], silica/bentonite [31] and silica/nanoclay [14,23]. The addition of CB reduces both scorch and cure times especially in the range of 0-40 wt% relative to total filler, thereafter the values decrease slightly with increasing amount of CB.…”
Section: Mixing Behavior Processability and Cure Propertiessupporting
confidence: 72%
“…This is also due to the filler network of CB. Moreover, it is well established that the dump temperature is a key parameter affecting the silanization reaction for silicasilane compounds [7,8,23]. The higher dump temperature promotes a greater extent of the silanization and filler-rubber interactions and thus increases the viscosity.…”
Section: Mixing Behavior Processability and Cure Propertiesmentioning
confidence: 99%
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“…Elastomer compounds for potential applications such as the tire industry generally contain at least 30 phr of active fillers, i.e., carbon black or silica. Various types of silica are conventionally used as reinforcing fillers, since they improve the mechanical properties of elastomers, i.e., tensile strength, modulus, tear strength, heat build-up, flex fatigue, chunking resistance, as well as abrasion and skid resistance [40,41]. However, the addition of silica to rubber compounds has some disadvantages, which arise from weak elastomerfiller interaction and the incompatibility of silica with rubbers [42].…”
Section: Introductionmentioning
confidence: 99%