Effects of various ferrocene concentrations on the tensile strengths, elongations at break, and g... more Effects of various ferrocene concentrations on the tensile strengths, elongations at break, and glass-transition temperatures of ferrocene-containing epoxy–polyurethane composite materials are studied. As shown by IR spectroscopy and X-ray diffraction analysis, ferrocene affects the structuring of epoxy–polyurethane composites via redistribution of intermolecular hydrogen bonds between amide, hydroxyl, and urethane groups of the polymer basis and formation of metal–polymer complexes between ferrocene and polar groups of the polymer carrier.
Effects of various ferrocene concentrations on the tensile strengths, elongations at break, and g... more Effects of various ferrocene concentrations on the tensile strengths, elongations at break, and glass-transition temperatures of ferrocene-containing epoxy–polyurethane composite materials are studied. As shown by IR spectroscopy and X-ray diffraction analysis, ferrocene affects the structuring of epoxy–polyurethane composites via redistribution of intermolecular hydrogen bonds between amide, hydroxyl, and urethane groups of the polymer basis and formation of metal–polymer complexes between ferrocene and polar groups of the polymer carrier.
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Papers by Rita Rozhnova
As shown by IR spectroscopy and X-ray diffraction analysis, ferrocene affects the structuring of epoxy–polyurethane composites via redistribution of intermolecular hydrogen bonds between amide, hydroxyl, and urethane groups of the polymer basis and formation of metal–polymer complexes between ferrocene and polar groups of the polymer carrier.
As shown by IR spectroscopy and X-ray diffraction analysis, ferrocene affects the structuring of epoxy–polyurethane composites via redistribution of intermolecular hydrogen bonds between amide, hydroxyl, and urethane groups of the polymer basis and formation of metal–polymer complexes between ferrocene and polar groups of the polymer carrier.