An efficient method to prepare high grafting montmorillonite with silane coupling agent and its improvements for styrene butadiene rubber composites

Peng, Zhiliang; Li, Yujie; Wang, Yiqing; Liu, Yuwan; Ding, Xiaofang; Wu, Xiaohui; Zhang, Liqun

doi:10.1002/pc.28691

Polymer Composites

2024

DOI: 10.1002/pc.28691

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An efficient method to prepare high grafting montmorillonite with silane coupling agent and its improvements for styrene butadiene rubber composites

Zhiliang Peng,

Yujie Li,

Yiqing Wang

et al.

Abstract: The quantity of silane chemically bonded to the organoclay's surface significantly influences its dispersion within the polymer matrix, as well as the interfacial interaction. This research presents a groundbreaking method for enhancing the surface properties of montmorillonite (Mt) through the use of γ‐(methacryloxy) propyl trimethoxy silane (KH570) coupled with acid treatment, leading to increased grafting efficiency. Confirmed by FT‐IR, TGA, and XRD, the process effectively bonds organo‐silanes to Mt and ac… Show more

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2024

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Fabrication of cis‐1,4 polyisoprene composites reinforced with well‐dispersed silica/carbon black promoted by silica‐rubber hydrogen‐bonding

Sun,

Tang,

Gong

2024

Polymer Composites

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Silica is known to be an indispensable ingredient for fuel‐saving tires; however, it has a high tendency to aggregate when compounded with rubber due to component incompatibility. Incorporating hydrophilic groups into hydrophobic rubber would be a promising approach. In the present work, hydroxyl‐modified polyisoprene with high cis‐1,4 regularity (95.3%–97.1%) and controlled functional fraction (0.5 mol‐%‐28.4 mol‐%) was synthesized via neodymium‐catalyzed coordination‐insertion copolymerization of hydroxyl myrcene with isoprene. Polyisoprene composites reinforced with a hybrid filler of silica and black carbon were then fabricated. Intrinsically promoted filler dispersion in the rubber was enabled through the formation of hydrogen‐bonding between the filler and rubber, verified by variable‐temperature FT‐IR, atomic force microscopy (AFM), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and dynamic mechanical analysis (DMA). This interaction is critical to achieving superior integrated properties similar to natural rubber, including stronger tensile strength (25.0 MPa), improved toughness (elongation at break of 1343%), enhanced wet‐skid resistance (tan δ of 0.18), increased rebound resilience, and reduced heat buildup and abrasion. The developed fabrication route offers a feasible solution for constructing well‐dispersed silica‐reinforced composites applicable to energy‐saving green tires.Highlights Hydroxyl‐functionalized essential cis‐1,4 polyisoprene was synthesized. Hydroxyl functionality reached up to 28.4 mol‐% incorporation. Well‐dispersed silica/carbon black‐filled rubber composites were fabricated. Hydrogen‐bonding promoted silica‐rubber compatibility. The vulcanizates displayed superior integrated mechanical properties.

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Fabrication of cis‐1,4 polyisoprene composites reinforced with well‐dispersed silica/carbon black promoted by silica‐rubber hydrogen‐bonding

Sun,

Tang,

Gong

2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

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An efficient method to prepare high grafting montmorillonite with silane coupling agent and its improvements for styrene butadiene rubber composites

Cited by 1 publication

References 53 publications

Fabrication of cis‐1,4 polyisoprene composites reinforced with well‐dispersed silica/carbon black promoted by silica‐rubber hydrogen‐bonding

Fabrication of cis‐1,4 polyisoprene composites reinforced with well‐dispersed silica/carbon black promoted by silica‐rubber hydrogen‐bonding

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