Mechanical Spectroscopy 2001
Published on 13. March 2001
Software
Digital media
724 pages
978-3-03859-876-3 (ISBN)
Description
Mechanical spectroscopy is a non-destructive technique that is very well suited for studying the dynamics of singularities such as structural defects in solids. It has been successfully applied in solid state physics and materials science for more than fifty years, and the present textbook aims at summarising the state-of-the-art in this field by presenting recent results obtained in Western European laboratories.?The contents are divided into nine chapters. Introduction to mechanical spectroscopy (Ch.1) is based on a complete description of the elastic, viscoelastic, and viscoplastic behaviours of solids. The anelastic response is analysed from three different viewpoints: phenomenology, rheology and thermodynamics.
More details
Language
English
Place of publication
Switzerland
Publishing group
Trans Tech Publications
Target group
Professional and scholarly
Dimensions
Height: 142 mm
Width: 125 mm
Thickness: 10 mm
Weight
200 gr
ISBN-13
978-3-03859-876-3 (9783038598763)
DOI
10.4028/www.scientific.net/MSF.366-368
Schweitzer Classification
Other editions
Additional editions
Schaller. R | G. Fantozzi | G. Gremaud
Mechanical Spectroscopy 2001
Book
03/2001
Trans Tech Publications Ltd
€345.00
Article exhausted; check different version
Trans Tech Publications Ltd | Robert Schaller | Gilbert Fantozzi
Mechanical Spectroscopy 2001
E-Book
03/2001
Trans Tech Publications Ltd
€211.86
Available for download
Content
1.1 Phenomenology and Definitions1.2 Mechanical spectroscopy1.3 Non Linear Dissipative Mechanisms2. Point Defect Relaxations3.1 Dislocation: Description and Dynamics3.2 Dislocation - Lattice Interactions3.3 Dislocation - Point Defect Interactions3.4 Dislocation Damping at Medium Temperature3.5 High Temperature Damping3.6 Recrystallization4.1 Grain boundaries: description and dynamics4.2 Grain Boundary Relaxations in Metals4.3 Grain Boundary Relaxations in Ceramics5.1 Thermodynamics of 2nd and 1st Order PhaseTtransformations5.2 Ferroelectric Transitions5.3 The Martensitic Transformation5.4 Transitory Effects5.5 Precipitation6.1 Magnetic Domains6.2 Ferroelectric Domains7. Non Crystalline Materials8.1 Thin-layer Materials8.2 Surface andLlocal Spectroscopy8.3 Interface Stress Relaxation in Metal Matrix Composites8.4 Internal Friction in Fibre Reinforced Composites8.5 Fatigue and Internal Friction8.6 Damping and Toughness8.7 High Damping Materials9.1 Low Frequency Techniques9.2 Ultrasonics Techniques: PUCOT and ACT9.3 Scanning Local Acceleration Microscopy: SLAM9.4 Scanning Acoustic Microscopy: SAM