Journal of Polymer Science Part B: Polymer Physics, Vol.45, No.1, 91-102, 2007
Measurement of high frequency linear viscoelastic functions of a nitrile-butadiene rubber compound by ultrasound spectroscopy
The storage and loss components of the complex wave modulus, M*(omega), measured on a nitrile-butadiene rubber compound (NBR-DTN 53538) by ultrasound spectroscopy at a temperature of 293.2 K, were combined with the components of the complex shear modulus, G*(omega), measured on the same sample in a commercial Rheometric Scientific ARES instrument with torsion geometry at different frequencies and temperatures, and superposed in a master plot using the time-temperature superposition principle. From the combined measurements the components of the complex bulk modulus, K*(omega), were obtained by means of the exact formula M* (omega) = K*(omega) (4/3)G*(omega). Some of the features of the complex bulk modulus reported in the literature for polymeric materials are confirmed for the NBR-DIN mixture. The maxima in G"(omega) and K"(omega) are separated by more than one order of magnitude in the frequency scale and furthermore, the shapes of the peaks are different. The simple idea, that, for many polymers, the mechanisms for relaxation in shear and in bulk are of the same basic nature appears not to be supported by the present data. (c) 2006 Wiley Periodicals, Inc.
Keywords:complex bulk modulus;glass transition;linear viscoelastic functions;nitrile-butadiene rubber compound;time-temperature superposition;ultrasound spectroscopy