Abstract
Natural rubber (NR), a long-chain hydrocarbon polymer mostly consisting of cis-1,4-polyisoprene units, has a high molecular weight (MW) and viscosity, enabling it to show excellent physical properties. However, NR has no reactive functional group, making it difficult to react with other molecules, especially in manufacturing processes. The functionalized low-molecular-weight NR (FLNR) is a requirement to disperse ingredients into the rubber adequately. Here, the FLNR was prepared by a photochemical degradation process under UVC-irradiation in the presence of H2O2 using P25-titanium oxide (TiO2) powder as a photocatalyst. The optimum condition for the preparation of FLNR was the use of 2.0 g of TiO2 powder per 100 g of rubber and H2O2 at 20% w/w under UVC-irradiation for 5 h. The hydroxyl groups were found on the NR chains due to the chain-scission of polyisoprene chains and hydroxyl radicals in the system. The weight average MW of NR decreased from 12.6 × 105 to 0.6 × 105 gmol−1, while the number average MW decreased from 3.3 × 105 to 0.1 × 105 gmol−1.
Highlights
Natural rubber (NR) derived from the Hevea brasiliensis tree is a long chain hydrocarbon polymer composed of 94% cis-1,4-polyisoprene and 6% non-rubber components, including lipids, proteins, and inorganic constituents [1]
It has been extensively used in various applications, such as tire, medical glove, and condoms, since it provides excellent physical properties, resilience, strength, and fatigue resistance [2]
The NR latex used in this study was high ammonia (HA) latex supplied from Thai rubber latex Group Public Co., Ltd. (Bang Phli District, Thailand)
Summary
Natural rubber (NR) derived from the Hevea brasiliensis tree is a long chain hydrocarbon polymer composed of 94% cis-1,4-polyisoprene and 6% non-rubber components, including lipids, proteins, and inorganic constituents [1]. It has been extensively used in various applications, such as tire, medical glove, and condoms, since it provides excellent physical properties, resilience, strength, and fatigue resistance [2]. The very high molecular weight (MW) and hydrocarbon nature make it difficult to process and compatibilize NR with fillers or other molecules and significantly limits its chain-end usage
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