Reinforcement of TPNR (thermoplastic natural rubber) with cotton fibre spun was prepared by using hot compression moulding. The TPNR was prepared by mixing NR (natural rubber) with PE (polyethylene) using 2-roll...Reinforcement of TPNR (thermoplastic natural rubber) with cotton fibre spun was prepared by using hot compression moulding. The TPNR was prepared by mixing NR (natural rubber) with PE (polyethylene) using 2-roll mills before compressed on cotton fibre spun and vulcanized at 150℃. The mechanical properties and morphology of the membrane were investigated using DMTA (dynamic mechanical thermal analyzer) and SEM (scanning electron microscopy), respectively. The membrane strength was increased from 10 MPa to 18 MPa after reinforced with cotton fibre spun as well as the increasing of dielectric constant. The membrane was immersed in xylene to remove PE phase before characterization of membrane properties.展开更多
In order to obtain the optimized structure rubber, a novel miktoarm star styrene-butadiene rubber (MS- SBR) was initiated by a multifunctional macromolecular initiator with polydiene arm and Sn-C bond. The propertie...In order to obtain the optimized structure rubber, a novel miktoarm star styrene-butadiene rubber (MS- SBR) was initiated by a multifunctional macromolecular initiator with polydiene arm and Sn-C bond. The properties of MS-SBR were investigated with respect to the morphology, mechanical properties, and dynamic viscoelasticity in comparison with those of the blends, natural rubber (NR)/star styrene-butadiene random rubber (S-SBR) blend rubber and cis-l,4-polybutadiene rubber (cis-BR)/S-SBR blend rubber. The samples were analyzed using transmission elec- tron microscopy (TEM), dynamic mechanical thermal analyzer (DMTA), and mechanical properties test. The analy- sis results show that MS-SBR possesses the desired combination of low rolling resistance and high antiskid resistance, and is promising for application in high performance tire tread.展开更多
文摘Reinforcement of TPNR (thermoplastic natural rubber) with cotton fibre spun was prepared by using hot compression moulding. The TPNR was prepared by mixing NR (natural rubber) with PE (polyethylene) using 2-roll mills before compressed on cotton fibre spun and vulcanized at 150℃. The mechanical properties and morphology of the membrane were investigated using DMTA (dynamic mechanical thermal analyzer) and SEM (scanning electron microscopy), respectively. The membrane strength was increased from 10 MPa to 18 MPa after reinforced with cotton fibre spun as well as the increasing of dielectric constant. The membrane was immersed in xylene to remove PE phase before characterization of membrane properties.
基金Supported by National Natural Science Foundation of China (No.50573005)
文摘In order to obtain the optimized structure rubber, a novel miktoarm star styrene-butadiene rubber (MS- SBR) was initiated by a multifunctional macromolecular initiator with polydiene arm and Sn-C bond. The properties of MS-SBR were investigated with respect to the morphology, mechanical properties, and dynamic viscoelasticity in comparison with those of the blends, natural rubber (NR)/star styrene-butadiene random rubber (S-SBR) blend rubber and cis-l,4-polybutadiene rubber (cis-BR)/S-SBR blend rubber. The samples were analyzed using transmission elec- tron microscopy (TEM), dynamic mechanical thermal analyzer (DMTA), and mechanical properties test. The analy- sis results show that MS-SBR possesses the desired combination of low rolling resistance and high antiskid resistance, and is promising for application in high performance tire tread.
