1972
DOI: 10.1016/b978-0-12-522650-9.x5001-0
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Anelastic Relaxation in Crystalline Solids

Abstract: We are espe cially grateful for the support of much of the research leading to this book, as well as partial support of the writing itself, by the U. S. Atom ic Energy Commission. We thank Miss Maureen Weaver for her skill ful typing of a substantial fraction of the manuscript. Finally, we wish to express our deepest gratitude to our wives for their encouragement and understanding over the several years during which this book was being written.XV Dielectric relaxation has been the subject of a recent book by D… Show more

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Cited by 14 publications
(18 citation statements)
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References 228 publications
(305 reference statements)
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“…A difficult question is: what mechanisms determine the loss modulus E 2 in 2D materials? A number of mechanisms is known to cause anelastic relaxation losses in solids [139], most of which might play a role in 2D materials. Information about the underlying mechanism can to some extent be obtained by measurements as a function of frequency and temperature.…”
Section: Quality Factor and Dissipationmentioning
confidence: 99%
“…A difficult question is: what mechanisms determine the loss modulus E 2 in 2D materials? A number of mechanisms is known to cause anelastic relaxation losses in solids [139], most of which might play a role in 2D materials. Information about the underlying mechanism can to some extent be obtained by measurements as a function of frequency and temperature.…”
Section: Quality Factor and Dissipationmentioning
confidence: 99%
“…1). We convert the internal friction profile computed for a single crystal to the one for polycrystal via the Reuss averaging method [38,32]. The profile given by AKMC simulation is in excellent agreement with the one computed from TK model.…”
Section: Simulation Benchmarkmentioning
confidence: 75%
“…where ∆W = σ : d is the energy loss per cycle and W max is the maximum elastically stored energy per unit volume during a cycle. Note that if carbon atoms are diffusing in low-carbon Fe, Q −1 follows a Debye curve [32]:…”
Section: Calculation Methods For the Internal Frictionmentioning
confidence: 99%
“…Zener [12] has explored the results of thermo-elastic damping from the irreversible flow of heat driven by local temperature gradients that through the coupling accompany the strain field. Since the early work by Zener, quite a few * e-mail: m.selim@psau.edu.sa studies relating to thermo-elastic vibration analysis for rod, beam, plate, and composite laminate structures have been reported [13][14][15][16][17].…”
Section: Introductionmentioning
confidence: 99%