Mechanical Spectroscopy III: MS-3 : Mechanical Spectroscopy and Relaxation Phenomena in SolidsB. M. Darinskiĭ, L. B. Magalas This work bridges the gaps between mechanical spectroscopy, internal friction, relaxation phenomena in solids and the spectroscopic approach to the dissipation of mechanical energy in solids. A limited number of papers are selected from different fields in order to compare the analysis of similar relaxation phenomena occurring in various materials. |
Contents
Mechanical Spectroscopy and Relaxation Phenomena in Solids | 1 |
Mechanical Spectroscopy Internal Friction and Relaxation Phenomena | 15 |
The Snoek Effect in Ternary BCC Alloys A Review | 37 |
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2006 Trans Tech activation energy algorithm alloys amorphous amplitude Anelasticity annealing arachis oil atoms calculated clusters coefficients components computations concentration constant curve damping steels decrease deformation dielectric permittivity dielectric relaxation diffusion dipoles dislocation doping effect elastic electron equation experimental ferroelectric films frequency function glass transition grain boundary heating high damping http://www.scientific.net 2006 Trans hydrogen increase interaction interstitial irreversible kinetic Kraków L. B. Magalas lattice logarithmic decrement magnetic martensite materials measurements mechanical loss spectra mechanical spectrometer mechanical spectroscopy metallic glasses observed obtained online at http://www.scientific.net parameters permittivity phase transition Phenomena in Solids phonon Phys physical piezoelectric plastic properties pyroelectric quasicrystalline quasicrystals quenching relaxation peak relaxation phenomena relaxation processes resonant room temperature Russian samples scattering shear modulus shown in Fig Snoek sodium nitrite solid solution spectrum structural relaxation surface temperature dependence thermal Trans Tech Publications Voronezh Young's modulus