Longitudinal resonance vibrations in determining dynamic viscoelastic properties of textile materials
DOI:
https://doi.org/10.15587/1729-4061.2014.31202Keywords:
viscoelastic properties, elasticity module, damping decrement, mechanical loss angle, vibration amplitudeAbstract
The study presents a method for estimating dynamic viscoelastic properties of textile materials. The method allows solving the problem of express analyzing of the properties of fabrics for sewing products with predictable consumer indices. The suggested direct determining of the angle of mechanical loss due to the simplified algorithm of technical playback does not require measuring vibration amplitudes. The fabric elasticity module is determined by measuring longitudinal resonance vibrations. The suggested method is especially convenient in measuring phasal angles for low frequency vibrations as well as angles of phasal shift in the range (-π/2; π/2) for harmonic vibrations. The maximal errors for the dynamic elasticity module Е(t) and the damping decrement δ do not exceed ±1,5 % and ±2,5 % respectively. The obtained findings enable a rational choice of textile materials for industrial sewing.
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