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Shadrinov, Nikolay V.,Sokolova, Marina D.,Okhlopkova, A.A.,Lee, Jungkeun,Jeong, Dae-Yong,Shim, Ee Le,Cho, Jin-Ho Korean Chemical Society 2013 Bulletin of the Korean Chemical Society Vol.34 No.12
This article examines the modification of surface properties of ultrahigh-molecular-weight polyethylene (UHMWPE) with nanoscale ceramic particles to fabricate an improved composite with butadiene-nitrile rubber (BNR). Adhesion force data showed that ceramic zeolite particles on the surface of UHMWPE modulated the surface state of the polymer and increased its compatibility with BNR. Atomic force microscopy phase images showed that UHMWPE made up the microphase around the zeolite particles and formed the evolving layer with a complex interface. The complex interface resulted in improvements in the mechanical properties of the composite, especially its low-temperature resistance coefficients, thereby improving its performance in low-temperature applications.
Effect of Carbon Black Activation on Physicomechanical Properties of Butadiene-nitrile Rubber
Shadrinov, N.V.,Kapitonov, E.A.,Sokolova, M.D.,Okhlopkova, A.A.,Shim, Ee Le,Cho, Jin-Ho Korean Chemical Society 2014 Bulletin of the Korean Chemical Society Vol.35 No.10
The effects of mechanical activation of carbon black on the processing and properties of butadiene nitrile rubber were studied. Mechanical activation of carbon black caused an improvement in the physical and mechanical properties of the butadiene-nitrile rubber, BNR-18AMN. The optimum activation time that would afford rubber with improved properties was established.
Effect of Carbon Black Activation on Physicomechanical Properties of Butadiene-nitrile Rubber
N. V. Shadrinov,E. A. Kapitonov,M. D. Sokolova,A. A. Okhlopkova,심이레,조진호 대한화학회 2014 Bulletin of the Korean Chemical Society Vol.35 No.10
The effects of mechanical activation of carbon black on the processing and properties of butadiene nitrile rubber were studied. Mechanical activation of carbon black caused an improvement in the physical and mechanical properties of the butadiene-nitrile rubber, BNR-18AMN. The optimum activation time that would afford rubber with improved properties was established.
Nikolay V. Shadrinov,Marina D. Sokolova,A. A. Okhlopkova,Jungkeun Lee,정대용,Ee-Le Shim,조진호 대한화학회 2013 Bulletin of the Korean Chemical Society Vol.34 No.12
This article examines the modification of surface properties of ultrahigh-molecular-weight polyethylene (UHMWPE) with nanoscale ceramic particles to fabricate an improved composite with butadiene–nitrile rubber (BNR). Adhesion force data showed that ceramic zeolite particles on the surface of UHMWPE modulated the surface state of the polymer and increased its compatibility with BNR. Atomic force microscopy phase images showed that UHMWPE made up the microphase around the zeolite particles and formed the evolving layer with a complex interface. The complex interface resulted in improvements in the mechanical properties of the composite, especially its low-temperature resistance coefficients, thereby improving its performance in low-temperature applications.
Argunova, Anastasiia G.,Petrova, Pavlina N.,Okhlopkova, Aitalina A.,Shadrinov, Nikolay V.,Gogoleva, Olga V.,Cho, Jin-Ho Korean Chemical Society 2015 대한화학회지 Vol.59 No.3
The effect of ultrasonication on PTFE and its composites with zeolite and fluoroplast F-4NTD-2 was studied. Ultrasonication was found to cause changes in the supramolecular structure, and consequently, the tensile strength, relative elongation, and mass wear rate. Changes in the topology of the materials following ultrasonication were investigated by scanning electron microscopy. The optimum enhancement of the desired properties was found in the PTFE composite containing 2% activated zeolite.